Link | NPTEL Course Name | NPTEL Lecture Title |
---|---|---|

Link | Convective Heat and Mass Transfer | Lecture 1 - Introduction |

Link | Convective Heat and Mass Transfer | Lecture 2 - Flow Classifications |

Link | Convective Heat and Mass Transfer | Lecture 3 - Laws of Convection |

Link | Convective Heat and Mass Transfer | Lecture 4 - Scalar Transport Equations |

Link | Convective Heat and Mass Transfer | Lecture 5 - Laminar Boundary Layers |

Link | Convective Heat and Mass Transfer | Lecture 6 - Similarity Method |

Link | Convective Heat and Mass Transfer | Lecture 7 - Similaity Solns Velocity BL |

Link | Convective Heat and Mass Transfer | Lecture 8 - Similaity Solns Temperature BL - I |

Link | Convective Heat and Mass Transfer | Lecture 9 - Similaity Solns Temperature BL - II |

Link | Convective Heat and Mass Transfer | Lecture 10 - Integral BL Equations |

Link | Convective Heat and Mass Transfer | Lecture 11 - Integral Solns Laminar Velocity BL |

Link | Convective Heat and Mass Transfer | Lecture 12 - Integral Solns Laminar Temperature BL |

Link | Convective Heat and Mass Transfer | Lecture 13 - Superposition Theory |

Link | Convective Heat and Mass Transfer | Lecture 14 - Laminar Internal Flows |

Link | Convective Heat and Mass Transfer | Lecture 15 - Fully-Developed Laminar Flows - 1 |

Link | Convective Heat and Mass Transfer | Lecture 16 - Fully-Developed Laminar Flows - 2 |

Link | Convective Heat and Mass Transfer | Lecture 17 - Fully-Developed Laminar Flows Heat Transfer - 1 |

Link | Convective Heat and Mass Transfer | Lecture 18 - Fully-Developed Laminar Flows Heat Transfer - 2 |

Link | Convective Heat and Mass Transfer | Lecture 19 - Laminar Internal Developing Flows Heat Transfer |

Link | Convective Heat and Mass Transfer | Lecture 20 - Superposition Technique |

Link | Convective Heat and Mass Transfer | Lecture 21 - Nature of Turbulent Flows |

Link | Convective Heat and Mass Transfer | Lecture 22 - Sustaining Mechanism of Turbulence - 1 |

Link | Convective Heat and Mass Transfer | Lecture 23 - Sustaining Mechanism of Turbulence - 1 |

Link | Convective Heat and Mass Transfer | Lecture 24 - Sustaining Mechanism of Turbulence - 2 |

Link | Convective Heat and Mass Transfer | Lecture 25 - Near-Wall Turbulent Flows - 1 |

Link | Convective Heat and Mass Transfer | Lecture 26 - Near-Wall Turbulent Flows - 2 |

Link | Convective Heat and Mass Transfer | Lecture 27 - Turbulence Models - 1 |

Link | Convective Heat and Mass Transfer | Lecture 28 - Turbulence Models - 2 |

Link | Convective Heat and Mass Transfer | Lecture 29 - Turbulence Models - 3 |

Link | Convective Heat and Mass Transfer | Lecture 30 - Prediction of Turbulent Flows |

Link | Convective Heat and Mass Transfer | Lecture 31 - Prediction of Turbulent Heat Transfer |

Link | Convective Heat and Mass Transfer | Lecture 32 - Convective Mass Transfer |

Link | Convective Heat and Mass Transfer | Lecture 33 - Stefan Flow Model |

Link | Convective Heat and Mass Transfer | Lecture 34 - Couette Flow Model |

Link | Convective Heat and Mass Transfer | Lecture 35 - Reynolds Flow Model |

Link | Convective Heat and Mass Transfer | Lecture 36 - Boundary Layer Flow Model |

Link | Convective Heat and Mass Transfer | Lecture 37 - Evaluation of g and Nw |

Link | Convective Heat and Mass Transfer | Lecture 38 - Diffusion Mass Transfer Problems |

Link | Convective Heat and Mass Transfer | Lecture 39 - Convective MT Couette Flow |

Link | Convective Heat and Mass Transfer | Lecture 40 - Convective MT Reynolds Flow Model - 1 |

Link | Convective Heat and Mass Transfer | Lecture 41 - Convective MT Reynolds Flow Model - 2 |

Link | Convective Heat and Mass Transfer | Lecture 42 - Natural Convection |

Link | Convective Heat and Mass Transfer | Lecture 43 - Diffusion Jet Flames |

Link | Cryogenic Engineering | Lecture 1 - Introduction to Cryogenic Engineering |

Link | Cryogenic Engineering | Lecture 2 - Properties of Cryogenic Fluids - I |

Link | Cryogenic Engineering | Lecture 3 - Properties of Cryogenic Fluids - II |

Link | Cryogenic Engineering | Lecture 4 - Properties of Cryogenic |

Link | Cryogenic Engineering | Lecture 5 - Material Properties at Low Temperature - I |

Link | Cryogenic Engineering | Lecture 6 - Material Properties at Low Temperature - II |

Link | Cryogenic Engineering | Lecture 7 - Material Properties at Low Temperature - III |

Link | Cryogenic Engineering | Lecture 8 - Gas Liquefaction and Refrigeration Systems - I |

Link | Cryogenic Engineering | Lecture 9 - Gas Liquefaction and Refrigeration Systems - II |

Link | Cryogenic Engineering | Lecture 10 - Gas Liquefaction and Refrigeration Systems - III |

Link | Cryogenic Engineering | Lecture 11 - Gas Liquefaction and Refrigeration Systems - IV |

Link | Cryogenic Engineering | Lecture 12 - Gas Liquefaction and Refrigeration Systems - V |

Link | Cryogenic Engineering | Lecture 13 - Gas Liquefaction and Refrigeration Systems - VI |

Link | Cryogenic Engineering | Lecture 14 - Gas Liquefaction and Refrigeration Systems - VII |

Link | Cryogenic Engineering | Lecture 15 - Gas Liquefaction and Refrigeration Systems - VIII |

Link | Cryogenic Engineering | Lecture 16 - Gas Liquefaction and Refrigeration Systems - IX |

Link | Cryogenic Engineering | Lecture 17 - Gas Liquefaction and Refrigeration Systems - X |

Link | Cryogenic Engineering | Lecture 18 - Gas Separation - I |

Link | Cryogenic Engineering | Lecture 19 - Gas Separation - II |

Link | Cryogenic Engineering | Lecture 20 - Gas Separation - III |

Link | Cryogenic Engineering | Lecture 21 - Gas Separation - IV |

Link | Cryogenic Engineering | Lecture 22 - Gas Separation - V |

Link | Cryogenic Engineering | Lecture 23 - Gas Separation - VI |

Link | Cryogenic Engineering | Lecture 24 - Gas Separation - VII |

Link | Cryogenic Engineering | Lecture 25 - Gas Separation - VIII |

Link | Cryogenic Engineering | Lecture 26 - Cryocoolers |

Link | Cryogenic Engineering | Lecture 27 - Cryocoolers Ideal Stirling Cycle - I |

Link | Cryogenic Engineering | Lecture 28 - Cryocoolers Ideal Stirling Cycle - II |

Link | Cryogenic Engineering | Lecture 29 - Cryocoolers Ideal Stirling Cycle - III |

Link | Cryogenic Engineering | Lecture 30 - Cryocoolers Ideal Stirling Cycle - IV |

Link | Cryogenic Engineering | Lecture 31 - Cryocoolers Ideal Stirling Cycle - V |

Link | Cryogenic Engineering | Lecture 32 - Cryocoolers |

Link | Cryogenic Engineering | Lecture 33 - Cryogenic Insulation - I |

Link | Cryogenic Engineering | Lecture 34 - Cryogenic Insulation - II |

Link | Cryogenic Engineering | Lecture 35 - Cryogenic Insulation - III |

Link | Cryogenic Engineering | Lecture 36 - Vacuum Technology - I |

Link | Cryogenic Engineering | Lecture 37 - Vacuum Technology - II |

Link | Cryogenic Engineering | Lecture 38 - Vaccum Technology - III |

Link | Cryogenic Engineering | Lecture 39 - Instrumentation in Cryogenics - I |

Link | Cryogenic Engineering | Lecture 40 - Instrumentation in Cryogenics - II |

Link | Cryogenic Engineering | Lecture 41 - Instrumentation in Cryogenics - III |

Link | Cryogenic Engineering | Lecture 42 - Safety in Cryogenics |

Link | Advanced Strength of Materials | Lecture 1 - Stress and Strain Tensor |

Link | Advanced Strength of Materials | Lecture 2 - Stress and Strain Tensor (Continued) and Cauchy Formula for Traction |

Link | Advanced Strength of Materials | Lecture 3 - Examples on Calculation of Strains and Tractions, Principal Stresses and Directions |

Link | Advanced Strength of Materials | Lecture 4 - Example on Calculation of Principal Stresses and Directions, Orthogonality of Principal Directions, Principal Stresses are all Real |

Link | Advanced Strength of Materials | Lecture 5 - Maximum Shear Stress and Octahedral Shear Stress, Deviatoric and Hydrostatic Stresses |

Link | Advanced Strength of Materials | Lecture 6 - Transformation of Stresses and Mohr Circle in 3-D |

Link | Advanced Strength of Materials | Lecture 7 - Mohr Circle (Continued) |

Link | Advanced Strength of Materials | Lecture 8 - Deformation, Rotation and Strain Tensors, Principal Strains,Deviatoric and Hydrostatic Strains |

Link | Advanced Strength of Materials | Lecture 9 - Strain Transformations, Strains in Polar Coordinates, Equilibrium Equations in 2-D |

Link | Advanced Strength of Materials | Lecture 10 - Equilibrium Equations in 2-D Polar Coordinates Plane Stress and Plane Strain Conditions |

Link | Advanced Strength of Materials | Lecture 11 - Stress-Strain Relations for Isotropic, Orthotropic and Anisotropic Materials Stress-Strain-Temperature Relations |

Link | Advanced Strength of Materials | Lecture 12 - Relation between Elastic Constants and Strain Energy Densities Recap of Lectures 1 to 11 |

Link | Advanced Strength of Materials | Lecture 13 - Stress Distribution in Thick Cylinder |

Link | Advanced Strength of Materials | Lecture 14 - Stresses due to Shrink Fitting |

Link | Advanced Strength of Materials | Lecture 15 - Stresses in Rotating Disc |

Link | Advanced Strength of Materials | Lecture 16 - Examples on Shrink Fitting and Rotating Disc |

Link | Advanced Strength of Materials | Lecture 17 - Torsion of Non-Circular Shaft |

Link | Advanced Strength of Materials | Lecture 18 - Torsion of Non-Circular Shaft (Continued) |

Link | Advanced Strength of Materials | Lecture 19 - Membrane Analogy for Torsion |

Link | Advanced Strength of Materials | Lecture 20 - Torsion of Thin Box Sections |

Link | Advanced Strength of Materials | Lecture 21 - Torsion of Box and Open Sections |

Link | Advanced Strength of Materials | Lecture 22 - Bending of Curved Bars |

Link | Advanced Strength of Materials | Lecture 23 - Bending of Curved Bars (Continued) |

Link | Advanced Strength of Materials | Lecture 24 - Theories of Failure |

Link | Advanced Strength of Materials | Lecture 25 - Theories of Failure (Continued) |

Link | Advanced Strength of Materials | Lecture 26 - Theories of Failure (Continued) and Their Applications, Griffith Theory of Brittle Fracture |

Link | Advanced Strength of Materials | Lecture 27 - Application of Griffith Theory, Irwin-Orowan Modification of Griffith Theory, Assessment of Effect of Dynamic Loading |

Link | Advanced Strength of Materials | Lecture 28 - Theorems of Elasticity |

Link | Advanced Strength of Materials | Lecture 29 - Theorems of Elasticity (Continued) |

Link | Advanced Strength of Materials | Lecture 30 - Thermal Stress Distribution in Rectangular Sheet due to Symmetric and Asymmetric Temperature Fields |

Link | Advanced Strength of Materials | Lecture 31 - Thermal Stress Distribution in Cylinders |

Link | Advanced Strength of Materials | Lecture 32 - Unsymmetrical Bending |

Link | Advanced Strength of Materials | Lecture 33 - Shear Centre |

Link | Advanced Strength of Materials | Lecture 34 - Plate Bending |

Link | Advanced Strength of Materials | Lecture 35 - Plate Bending (Continued) |

Link | Advanced Strength of Materials | Lecture 36 - Examples on Plate Bending |

Link | Advanced Strength of Materials | Lecture 37 - Approximate Solutions for Bending of Rectangular and Circular Plates |

Link | Advanced Strength of Materials | Lecture 38 - Thin Shells of Revolution |

Link | Advanced Strength of Materials | Lecture 39 - Beam on Elastic Foundation |

Link | Advanced Strength of Materials | Lecture 40 - Application of Beam on Elastic Foundation Analysis to Pressure Vessels for Calculation of Discontinuity Stresses |

Link | Heat and Mass Transfer | Lecture 1 - Introduction to Heat and Mass Transfer |

Link | Heat and Mass Transfer | Lecture 2 - Introduction |

Link | Heat and Mass Transfer | Lecture 3 - Introduction |

Link | Heat and Mass Transfer | Lecture 4 - Heat Conduction - 1 |

Link | Heat and Mass Transfer | Lecture 5 - Heat Conduction - 2 |

Link | Heat and Mass Transfer | Lecture 6 - Heat Conduction - 3 |

Link | Heat and Mass Transfer | Lecture 7 - Heat Conduction - 4 |

Link | Heat and Mass Transfer | Lecture 8 - Heat Conduction - 5 |

Link | Heat and Mass Transfer | Lecture 9 - Heat Conduction - 6 |

Link | Heat and Mass Transfer | Lecture 10 - Thermal Radiation - 1 |

Link | Heat and Mass Transfer | Lecture 11 - Thermal Radiation - 2 |

Link | Heat and Mass Transfer | Lecture 12 - Thermal Radiation - 3 |

Link | Heat and Mass Transfer | Lecture 13 - Thermal Radiation - 4 |

Link | Heat and Mass Transfer | Lecture 14 - Thermal Radiation - 5 |

Link | Heat and Mass Transfer | Lecture 15 - Thermal Radiation - 6 |

Link | Heat and Mass Transfer | Lecture 16 - Review Of Fluid Mechanics - 1 |

Link | Heat and Mass Transfer | Lecture 17 - Review Of Fluid Mechanics - 2 |

Link | Heat and Mass Transfer | Lecture 18 - Forced Convection - 1 |

Link | Heat and Mass Transfer | Lecture 19 - Forced Convection - 2 |

Link | Heat and Mass Transfer | Lecture 20 - Forced Convection - 3 |

Link | Heat and Mass Transfer | Lecture 21 - Forced Convection - 4 |

Link | Heat and Mass Transfer | Lecture 22 - Natural Convection - 1 |

Link | Heat and Mass Transfer | Lecture 23 - Natural Convection - 2 |

Link | Heat and Mass Transfer | Lecture 24 - Natural Convection - 3 |

Link | Heat and Mass Transfer | Lecture 25 - Heat Exchangers - 1 |

Link | Heat and Mass Transfer | Lecture 26 - Heat Exchangers - 2 |

Link | Heat and Mass Transfer | Lecture 27 - Heat Exchangers - 3 |

Link | Heat and Mass Transfer | Lecture 28 - Heat Exchangers - 4 |

Link | Heat and Mass Transfer | Lecture 29 - Boiling and Condensation - 1 |

Link | Heat and Mass Transfer | Lecture 30 - Boiling and Condensation - 2 |

Link | Heat and Mass Transfer | Lecture 31 - Boiling and Condensation - 3 |

Link | Heat and Mass Transfer | Lecture 32 - Boiling and Condensation - 4 |

Link | Heat and Mass Transfer | Lecture 33 - Introduction to Mass Transfer - 1 |

Link | Heat and Mass Transfer | Lecture 34 - Introduction to Mass Transfer - 2 |

Link | Heat and Mass Transfer | Lecture 35 - Introduction to Mass Transfer - 3 |

Link | Robotics | Lecture 1 - Introduction to Robotics |

Link | Robotics | Lecture 2 - Technologies in Robots |

Link | Robotics | Lecture 3 - Industrial Robots |

Link | Robotics | Lecture 4 - Industrial Manipulators and its Kinematics |

Link | Robotics | Lecture 5 - Parallel Manipulators |

Link | Robotics | Lecture 6 - Grippers manipulators |

Link | Robotics | Lecture 7 - Electric Actuators |

Link | Robotics | Lecture 8 - Actuators - Electric, Hydraulic, Pneumatic |

Link | Robotics | Lecture 9 - Internal State Sensors |

Link | Robotics | Lecture 10 - Internal State Sensors |

Link | Robotics | Lecture 11 - External State Sensors |

Link | Robotics | Lecture 12 - Trajectory planning |

Link | Robotics | Lecture 13 - Trajectory planning |

Link | Robotics | Lecture 14 - Trajectory planning |

Link | Robotics | Lecture 15 - Trajectory planning |

Link | Robotics | Lecture 16 - Trajectory planning |

Link | Robotics | Lecture 17 - Trajectory planning |

Link | Robotics | Lecture 18 - Trajectory planning |

Link | Robotics | Lecture 19 - Trajectory planning |

Link | Robotics | Lecture 20 - Forward Position Control |

Link | Robotics | Lecture 21 - Inverse Problem |

Link | Robotics | Lecture 22 - Velocity Analysis |

Link | Robotics | Lecture 23 - Velocity Analysis |

Link | Robotics | Lecture 24 - Dynamic Analysis |

Link | Robotics | Lecture 25 - Image Processing |

Link | Robotics | Lecture 26 - Image Processing |

Link | Robotics | Lecture 27 - Image Processing |

Link | Robotics | Lecture 28 - Image Processing |

Link | Robotics | Lecture 29 - Image Processing |

Link | Robotics | Lecture 30 - Image Processing |

Link | Robotics | Lecture 31 - Robot Dynamics and Control |

Link | Robotics | Lecture 32 - Robot Dynamics and Control |

Link | Robotics | Lecture 33 - Robot Dynamics and Control |

Link | Robotics | Lecture 34 - Robot Dynamics and Control |

Link | Robotics | Lecture 35 - Robot Dynamics and Control |

Link | Robotics | Lecture 36 - Robot Dynamics and Control |

Link | Robotics | Lecture 37 - Futuristic Topics in Robotics |

Link | Robotics | Lecture 38 - Robot Dynamic and Control-Case Studies |

Link | Robotics | Lecture 39 - Robot Dynamic and Control-Case Studies |

Link | Robotics | Lecture 40 - Futuristic Topics in Robotics |

Link | NOC:Optimization from Fundamentals | Lecture 1 - Introduction |

Link | NOC:Optimization from Fundamentals | Lecture 2 - Isoperimetric problem |

Link | NOC:Optimization from Fundamentals | Lecture 3 - Review of real analysis (sequences and convergence) |

Link | NOC:Optimization from Fundamentals | Lecture 4 - Bolzano-Weierstrass theorem and completeness axiom |

Link | NOC:Optimization from Fundamentals | Lecture 5 - Open sets, closed sets and compact sets |

Link | NOC:Optimization from Fundamentals | Lecture 6 - Continuity and Weierstrass theorem |

Link | NOC:Optimization from Fundamentals | Lecture 7 - Weierstrass theorem |

Link | NOC:Optimization from Fundamentals | Lecture 8 - Different solution concepts |

Link | NOC:Optimization from Fundamentals | Lecture 9 - Different types of constraints |

Link | NOC:Optimization from Fundamentals | Lecture 10 - Taylor's theorem |

Link | NOC:Optimization from Fundamentals | Lecture 11 - First order sufficient condition |

Link | NOC:Optimization from Fundamentals | Lecture 12 - Second order necessary condition |

Link | NOC:Optimization from Fundamentals | Lecture 13 - Least square regression |

Link | NOC:Optimization from Fundamentals | Lecture 14 - Least square regression (Continued...) |

Link | NOC:Optimization from Fundamentals | Lecture 15 - Implicit function theorem |

Link | NOC:Optimization from Fundamentals | Lecture 16 - Optimization with equality constraints and introduction to Lagrange multipliers - I |

Link | NOC:Optimization from Fundamentals | Lecture 17 - Optimization with equality constraints and introduction to Lagrange multipliers - II |

Link | NOC:Optimization from Fundamentals | Lecture 18 - Least norm solution of underdetermined linear system |

Link | NOC:Optimization from Fundamentals | Lecture 19 - Transformation of optimization problems - I |

Link | NOC:Optimization from Fundamentals | Lecture 20 - Transformation of optimization problems - II |

Link | NOC:Optimization from Fundamentals | Lecture 21 - Transformation of optimization problems - III |

Link | NOC:Optimization from Fundamentals | Lecture 22 - Convex Analysis - I |

Link | NOC:Optimization from Fundamentals | Lecture 23 - Convex Analysis - II |

Link | NOC:Optimization from Fundamentals | Lecture 24 - Convex Analysis - III |

Link | NOC:Optimization from Fundamentals | Lecture 25 - Polyhedrons |

Link | NOC:Optimization from Fundamentals | Lecture 26 - Minkowski-Weyl Theorem |

Link | NOC:Optimization from Fundamentals | Lecture 27 - Linear Programming Problems |

Link | NOC:Optimization from Fundamentals | Lecture 28 - Extreme points and optimal solution of an LP |

Link | NOC:Optimization from Fundamentals | Lecture 29 - Extreme points and optimal solution of an LP (Continued...) |

Link | NOC:Optimization from Fundamentals | Lecture 30 - Extreme points and basic feasible solutions |

Link | NOC:Optimization from Fundamentals | Lecture 31 - Equivalence of extreme point and BFS |

Link | NOC:Optimization from Fundamentals | Lecture 32 - Equivalence of extreme point and BFS (Continued...) |

Link | NOC:Optimization from Fundamentals | Lecture 33 - Examples of Linear Programming |

Link | NOC:Optimization from Fundamentals | Lecture 34 - Weak and Strong duality |

Link | NOC:Optimization from Fundamentals | Lecture 35 - Proof of strong duality |

Link | NOC:Optimization from Fundamentals | Lecture 36 - Proof of strong duality (Continued...) |

Link | NOC:Optimization from Fundamentals | Lecture 37 - Farkas' lemma |

Link | NOC:Optimization from Fundamentals | Lecture 38 - Max-flow Min-cut problem |

Link | NOC:Optimization from Fundamentals | Lecture 39 - Shortest path problem |

Link | NOC:Optimization from Fundamentals | Lecture 40 - Complementary Slackness |

Link | NOC:Optimization from Fundamentals | Lecture 41 - Proof of complementary slackness |

Link | NOC:Optimization from Fundamentals | Lecture 42 - Tangent cones |

Link | NOC:Optimization from Fundamentals | Lecture 43 - Tangent cones (Continued...) |

Link | NOC:Optimization from Fundamentals | Lecture 44 - Constraint qualifications, Farkas' lemma and KKT |

Link | NOC:Optimization from Fundamentals | Lecture 45 - KKT conditions |

Link | NOC:Optimization from Fundamentals | Lecture 46 - Convex optimization and KKT conditions |

Link | NOC:Optimization from Fundamentals | Lecture 47 - Slater condition and Lagrangian Dual |

Link | NOC:Optimization from Fundamentals | Lecture 48 - Weak duality in convex optimization and Fenchel dual |

Link | NOC:Optimization from Fundamentals | Lecture 49 - Geometry of the Lagrangian |

Link | NOC:Optimization from Fundamentals | Lecture 50 - Strong duality in convex optimization - I |

Link | NOC:Optimization from Fundamentals | Lecture 51 - Strong duality in convex optimization - II |

Link | NOC:Optimization from Fundamentals | Lecture 52 - Strong duality in convex optimization - III |

Link | NOC:Optimization from Fundamentals | Lecture 53 - Line search methods for unconstrained optimization |

Link | NOC:Optimization from Fundamentals | Lecture 54 - Wolfe conditions |

Link | NOC:Optimization from Fundamentals | Lecture 55 - Line search algorithm and convergence |

Link | NOC:Optimization from Fundamentals | Lecture 56 - Steepest descent method and rate of convergence |

Link | NOC:Optimization from Fundamentals | Lecture 57 - Newton's method |

Link | NOC:Optimization from Fundamentals | Lecture 58 - Penalty methods |

Link | NOC:Optimization from Fundamentals | Lecture 59 - L1 and L2 Penalty methods |

Link | NOC:Optimization from Fundamentals | Lecture 60 - Augmented Lagrangian methods |

Link | NOC:Optimization from Fundamentals | Lecture 61 - Cutting plane methods |

Link | NOC:Optimization from Fundamentals | Lecture 62 - Interior point methods for linear programming |

Link | NOC:Optimization from Fundamentals | Lecture 63 - Dynamic programming: Inventory control problem |

Link | NOC:Optimization from Fundamentals | Lecture 64 - Policy and value function |

Link | NOC:Optimization from Fundamentals | Lecture 65 - Principle of optimality in dynamic programming |

Link | NOC:Optimization from Fundamentals | Lecture 66 - Principle of optimality applied to inventory control problem |

Link | NOC:Optimization from Fundamentals | Lecture 67 - Optimal control for a system with linear state dynamics and quadratic cost |

Link | NOC:Design of Mechatronic Systems | Lecture 1 - Introduction |

Link | NOC:Design of Mechatronic Systems | Lecture 2 - Elements of Mechatronic Systems - Part I |

Link | NOC:Design of Mechatronic Systems | Lecture 3 - Elements of Mechatronic Systems - Part II |

Link | NOC:Design of Mechatronic Systems | Lecture 4 - Elements of Mechatronic Systems - Part III |

Link | NOC:Design of Mechatronic Systems | Lecture 5 - CD-ROM - Part I |

Link | NOC:Design of Mechatronic Systems | Lecture 6 - CD-ROM - Part II |

Link | NOC:Design of Mechatronic Systems | Lecture 7 - CD-ROM - Part III |

Link | NOC:Design of Mechatronic Systems | Lecture 8 - Scanner |

Link | NOC:Design of Mechatronic Systems | Lecture 9 - Integrated Mechanical-Electronics Philosophy - Part I |

Link | NOC:Design of Mechatronic Systems | Lecture 10 - Integrated Mechanical-Electronics Philosophy - Part II |

Link | NOC:Design of Mechatronic Systems | Lecture 11 - Smart Sensors Concept |

Link | NOC:Design of Mechatronic Systems | Lecture 12 - Compliant Mechanisms |

Link | NOC:Design of Mechatronic Systems | Lecture 13 - Microprocessor Building Blocks I - Combinational Circuits |

Link | NOC:Design of Mechatronic Systems | Lecture 14 - Microprocessor Building Blocks II - Sequential Circuits |

Link | NOC:Design of Mechatronic Systems | Lecture 15 - Microprocessor Memory and Addressing |

Link | NOC:Design of Mechatronic Systems | Lecture 16 - Timing and control unit: Primitive Microprocessor |

Link | NOC:Design of Mechatronic Systems | Lecture 17 - Microcontroller Architecture - I |

Link | NOC:Design of Mechatronic Systems | Lecture 18 - Microcontroller Architecture - II |

Link | NOC:Design of Mechatronic Systems | Lecture 19 - Microcontroller Programming Philosophy |

Link | NOC:Design of Mechatronic Systems | Lecture 20 - Hardware Interfaces |

Link | NOC:Design of Mechatronic Systems | Lecture 21 - Interfacing Actuator using PWM in Tiva Microcontroller |

Link | NOC:Design of Mechatronic Systems | Lecture 22 - Interfacing Encoder using QEI in Tiva Launchpad + ISR |

Link | NOC:Design of Mechatronic Systems | Lecture 23 - Mathematical Modelling: Overview and Context |

Link | NOC:Design of Mechatronic Systems | Lecture 24 - Modelling Friction in a System |

Link | NOC:Design of Mechatronic Systems | Lecture 25 - Modelling DC Motor with loads |

Link | NOC:Design of Mechatronic Systems | Lecture 26 - Lagrange formulation fundamentals |

Link | NOC:Design of Mechatronic Systems | Lecture 27 - Lagrange formulation examples |

Link | NOC:Design of Mechatronic Systems | Lecture 28 - Dynamics: 2-R Manipulator |

Link | NOC:Design of Mechatronic Systems | Lecture 29 - Control formulation: Regulation and Tracking |

Link | NOC:Design of Mechatronic Systems | Lecture 30 - Fundamentals of Simulation of dynamics using MATLAB |

Link | NOC:Design of Mechatronic Systems | Lecture 31 - Selection of Sensors and Actuators - Part I |

Link | NOC:Design of Mechatronic Systems | Lecture 32 - Selection of Sensors and Actuators - Part II |

Link | NOC:Design of Mechatronic Systems | Lecture 33 - Concept of feedback |

Link | NOC:Design of Mechatronic Systems | Lecture 34 - Closed loop control implementation in microcontroller |

Link | NOC:Design of Mechatronic Systems | Lecture 35 - Mathematical representations of systems for control |

Link | NOC:Design of Mechatronic Systems | Lecture 36 - Control design for linear systems |

Link | NOC:Design of Mechatronic Systems | Lecture 37 - Application of control design for linear systems |

Link | NOC:Design of Mechatronic Systems | Lecture 38 - Mathematical Preliminaries- Nonlinear Control |

Link | NOC:Design of Mechatronic Systems | Lecture 39 - Fundamentals of Lyapunov theory |

Link | NOC:Design of Mechatronic Systems | Lecture 40 - Application of Lyapunov stability analysis |

Link | NOC:Design of Mechatronic Systems | Lecture 41 - Trajectory tracking controller: Robotic system |

Link | NOC:Design of Mechatronic Systems | Lecture 42 - Fundamentals of sampling |

Link | NOC:Design of Mechatronic Systems | Lecture 43 - Shannon sampling theorem and signal reconstruction |

Link | NOC:Design of Mechatronic Systems | Lecture 44 - Signal processing |

Link | NOC:Design of Mechatronic Systems | Lecture 45 - Digital system representation and filters for mechatronics |

Link | NOC:Design of Mechatronic Systems | Lecture 46 - Case study: Development of 3D microprinting system |

Link | NOC:Design of Mechatronic Systems | Lecture 47 - Case study: 3D microprinting via Bulk lithography |

Link | NOC:Design of Mechatronic Systems | Lecture 48 - Case study: Hele-Shaw system for novel fabrication |

Link | NOC:Nonlinear Adaptive Control | Lecture 1 - Basic Concepts and Nomenclature |

Link | NOC:Nonlinear Adaptive Control | Lecture 2 - Preliminaries - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 3 - Preliminaries - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 4 - Preliminaries - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 5 - Preliminaries - Part 4 |

Link | NOC:Nonlinear Adaptive Control | Lecture 6 - Preliminaries - Part 5 |

Link | NOC:Nonlinear Adaptive Control | Lecture 7 - Barbalat's Lemma - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 8 - Barbalat's Lemma - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 9 - Convergence of Signals using Barbalat's Lemma - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 10 - Convergence of Signals using Barbalat's Lemma - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 11 - Notions of Stability - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 12 - Notions of Stability - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 13 - Stability Analysis with Examples - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 14 - Stability Analysis with Examples - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 15 - Stability Analysis with Examples - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 16 - Stability Analysis with Examples - Part 4 |

Link | NOC:Nonlinear Adaptive Control | Lecture 17 - Stability Analysis in Linear Systems |

Link | NOC:Nonlinear Adaptive Control | Lecture 18 - Function Classes and Definiteness |

Link | NOC:Nonlinear Adaptive Control | Lecture 19 - Positive Definite Functions |

Link | NOC:Nonlinear Adaptive Control | Lecture 20 - Radially Unbounded Functions |

Link | NOC:Nonlinear Adaptive Control | Lecture 21 - Decrescent Functions |

Link | NOC:Nonlinear Adaptive Control | Lecture 22 - Lyapunov Stability Theorems - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 23 - Lyapunov Stability Theorems - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 24 - Lyapunov Stability Theorems - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 25 - Exponential Stability and Converse Lyapunov Theorems |

Link | NOC:Nonlinear Adaptive Control | Lecture 26 - Persistence of Excitation (PE): Introduction |

Link | NOC:Nonlinear Adaptive Control | Lecture 27 - Connection of PE to Stability, Uniform Complete Observability (UCO) |

Link | NOC:Nonlinear Adaptive Control | Lecture 28 - Exponential Stability of LTV systems, PE and Exponential Stability |

Link | NOC:Nonlinear Adaptive Control | Lecture 29 - Parameter Identifier Convergence under PE Condition |

Link | NOC:Nonlinear Adaptive Control | Lecture 30 - Analysis of Parameter Varying Systems using General Integral Lemma - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 31 - Analysis of Parameter Varying Systems using General Integral Lemma - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 32 - Adaptive Control Design: First Order Scalar Systems |

Link | NOC:Nonlinear Adaptive Control | Lecture 33 - Barbalat's Lemma and Signal Chasing Anslysis |

Link | NOC:Nonlinear Adaptive Control | Lecture 34 - Parameter Convergence in Adaptive Control Design |

Link | NOC:Nonlinear Adaptive Control | Lecture 35 - Adaptive Control Design: Second-Order Systems |

Link | NOC:Nonlinear Adaptive Control | Lecture 36 - Overcoming the Detectability Obstacle: Ortega Construction |

Link | NOC:Nonlinear Adaptive Control | Lecture 37 - Backstepping in Adaptive Control: Introduction - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 38 - Backstepping in Adaptive Control: Introduction - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 39 - Backstepping in Adaptive Control: Parameters Unmatched with Control - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 40 - Backstepping in Adaptive Control: Parameters Unmatched with Control - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 41 - How to Deal with Unknown Gains in Control |

Link | NOC:Nonlinear Adaptive Control | Lecture 42 - Setup of Model Reference Adaptive Control (MRAC) Problem |

Link | NOC:Nonlinear Adaptive Control | Lecture 43 - Model Reference Adaptive control: For Known and Unknown Parameters |

Link | NOC:Nonlinear Adaptive Control | Lecture 44 - Model Reference Adaptive control: Lyapunov Stability Analysis |

Link | NOC:Nonlinear Adaptive Control | Lecture 45 - Generalization of Adaptive Integrator Backstepping Method - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 46 - Generalization of Adaptive Integrator Backstepping Method - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 47 - Extended Matching Design for Avoiding Overparameterization |

Link | NOC:Nonlinear Adaptive Control | Lecture 48 - Adaptive Integrator Backstepping Method: An Example - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 49 - Adaptive Integrator Backstepping Method: An Example - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 50 - Extended Matching Design: An Example |

Link | NOC:Nonlinear Adaptive Control | Lecture 51 - Control Lyapunov Function |

Link | NOC:Nonlinear Adaptive Control | Lecture 52 - Tuning Function Adaptive Method |

Link | NOC:Nonlinear Adaptive Control | Lecture 53 - Adaptive Backstepping via Control Lyapunov Function (CLF) |

Link | NOC:Nonlinear Adaptive Control | Lecture 54 - Adaptive Backstepping via CLF: An Example |

Link | NOC:Nonlinear Adaptive Control | Lecture 55 - Robustness in Adaptive Control - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 56 - Robustness in Adaptive Control - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 57 - Parameter Projection in Adaptive Control - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 58 - Parameter Projection in Adaptive Control - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 59 - Parameter Projection in Adaptive Control - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 60 - Sigma- Modification and Epsilon-Modification in Adaptive Control |

Link | NOC:Nonlinear Adaptive Control | Lecture 61 - Initial Excitation in Adaptive Control - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 62 - Initial Excitation in Adaptive Control - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 63 - Initial Excitation in Adaptive Control - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 64 - Initial Excitation in Adaptive Control - Part 4 |

Link | NOC:Nonlinear Adaptive Control | Lecture 65 - Initial Excitation in Adaptive Control - Part 5 |

Link | NOC:Nonlinear Adaptive Control | Lecture 66 - Discussion on Historical Developments in Adaptive Control and Learning |

Link | NOC:Nonlinear Adaptive Control | Lecture 67 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 1 |

Link | NOC:Nonlinear Adaptive Control | Lecture 68 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 2 |

Link | NOC:Nonlinear Adaptive Control | Lecture 69 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 3 |

Link | NOC:Nonlinear Adaptive Control | Lecture 70 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 4 |

Link | NOC:Nonlinear Adaptive Control | Lecture 71 - Real Time Neural Network Based Control of a Robotic Manipulator - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 1 - Course Introduction |

Link | NOC:Nonlinear Control Design | Lecture 2 - Examples of Nonlinear systems |

Link | NOC:Nonlinear Control Design | Lecture 3 - Existence and uniqueness of solutions |

Link | NOC:Nonlinear Control Design | Lecture 4 - Preliminaries and notations |

Link | NOC:Nonlinear Control Design | Lecture 5 - Preliminaries: Normed linear space |

Link | NOC:Nonlinear Control Design | Lecture 6 - Preliminaries: Induced Matrix Norms and Signal Norms |

Link | NOC:Nonlinear Control Design | Lecture 7 - Signal Norms and Cauchy-Schwarz Inequality |

Link | NOC:Nonlinear Control Design | Lecture 8 - Stability - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 9 - Stability - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 10 - Stability - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 11 - Stability - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 12 - Stability - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 13 - Lyapunov stability Theorems - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 14 - Lyapunov stability Theorems - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 15 - Lyapunov stability Theorems - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 16 - Lyapunov stability Theorems - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 17 - Lyapunov stability Theorems - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 18 - Lyapunov stability Theorems - Part 6 |

Link | NOC:Nonlinear Control Design | Lecture 19 - Proofs of Lyapunov Stability Theorems - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 20 - Proofs of Lyapunov Stability Theorems - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 21 - Proofs of Lyapunov Stability Theorems - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 22 - Proofs of Lyapunov Stability Theorems - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 23 - La Salle's Invariance Principle - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 24 - La Salle's Invariance Principle - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 25 - La Salle's Invariance Principle - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 26 - La Salle's Invariance Principle - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 27 - La Salle's Invariance Principle - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 28 - La Salle's Invariance Principle - Part 6 |

Link | NOC:Nonlinear Control Design | Lecture 29 - Control Lyapunov functions - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 30 - Control Lyapunov functions - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 31 - Control Lyapunov functions - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 32 - Control Lyapunov functions - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 33 - Control Lyapunov functions - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 34 - Backstepping method for control design - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 35 - Backstepping method for control design - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 36 - Backstepping method for control design - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 37 - Backstepping method for control design - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 38 - Passivity based control - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 39 - Passivity based control - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 40 - Passivity based control - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 41 - Passivity in control systems - Part 1 (Prof. Antonio Loria) |

Link | NOC:Nonlinear Control Design | Lecture 42 - Passivity in control systems - Part 2 (Prof. Antonio Loria) |

Link | NOC:Nonlinear Control Design | Lecture 43 - Passivity in control systems - Part 3 (Prof. Antonio Loria) |

Link | NOC:Nonlinear Control Design | Lecture 44 - Passivity in control systems - Part 4 (Prof. Antonio Loria) |

Link | NOC:Nonlinear Control Design | Lecture 45 - Passivity based control - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 46 - Passivity based control - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 47 - Passivity based control - Part 6 |

Link | NOC:Nonlinear Control Design | Lecture 48 - Passivity based control - Part 7 |

Link | NOC:Nonlinear Control Design | Lecture 49 - Feedback Linearization - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 50 - Feedback Linearization - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 51 - Feedback Linearization - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 52 - Feedback Linearization - Part 4 |

Link | NOC:Nonlinear Control Design | Lecture 53 - Feedback Linearization - Part 5 |

Link | NOC:Nonlinear Control Design | Lecture 54 - Feedback Linearization - Part 6 |

Link | NOC:Nonlinear Control Design | Lecture 55 - Feedback Linearization - Part 6 |

Link | NOC:Nonlinear Control Design | Lecture 56 - Feedback Linearization - Part 7 |

Link | NOC:Nonlinear Control Design | Lecture 57 - Feedback Linearization - Part 8 |

Link | NOC:Nonlinear Control Design | Lecture 58 - Feedback Linearization - Part 9 |

Link | NOC:Nonlinear Control Design | Lecture 59 - Feedback Linearization - Part 10 |

Link | NOC:Nonlinear Control Design | Lecture 60 - Feedback Linearization - Part 11 |

Link | NOC:Nonlinear Control Design | Lecture 61 - Barbalat's Lemma |

Link | NOC:Nonlinear Control Design | Lecture 62 - Application of Barbalat's Lemma |

Link | NOC:Nonlinear Control Design | Lecture 63 - Adaptive control - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 64 - Adaptive control - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 65 - State constrained control - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 66 - State constrained control - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 67 - State constrained control - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 68 - Finite time stability - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 69 - Finite time stability - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 70 - Finite time stability - Part 3 |

Link | NOC:Nonlinear Control Design | Lecture 71 - Sliding mode control - Part 1 |

Link | NOC:Nonlinear Control Design | Lecture 72 - Sliding mode control - Part 2 |

Link | NOC:Nonlinear Control Design | Lecture 73 - Sliding mode control - Part 3 |

Link | Tribology | Lecture 1 - Introduction |

Link | Tribology | Lecture 2 - Interdisciplinary Approach and Economic Benefits |

Link | Tribology | Lecture 3 - Friction |

Link | Tribology | Lecture 4 - Friction Estimation |

Link | Tribology | Lecture 5 - Friction Instability |

Link | Tribology | Lecture 6 - Wear |

Link | Tribology | Lecture 7 - Adhesive Wear |

Link | Tribology | Lecture 8 - Wear Mechanisms |

Link | Tribology | Lecture 9 - Wear Mechanisms - 2 |

Link | Tribology | Lecture 10 - Wear Analysis |

Link | Tribology | Lecture 11 - Lubrication and Lubricants |

Link | Tribology | Lecture 12 - Boundary Lubrication |

Link | Tribology | Lecture 13 - Lubrication Mechanisms |

Link | Tribology | Lecture 14 - Hydrodynamic Lubrication |

Link | Tribology | Lecture 15 - Lubricant Classifications |

Link | Tribology | Lecture 16 - Solid and Semi Solid Lubricants |

Link | Tribology | Lecture 17 - Liquid Lubricants |

Link | Tribology | Lecture 18 - Lubricant Additives |

Link | Tribology | Lecture 19 - Fluid Film Lubrication |

Link | Tribology | Lecture 20 - Reynolds Equation |

Link | Tribology | Lecture 21 - Solution of Reynolds Equation |

Link | Tribology | Lecture 22 - Hybrid Solution Approach (to solve Reynolds Equation) |

Link | Tribology | Lecture 23 - Finite Difference Method to Solve Reynolds Equation |

Link | Tribology | Lecture 24 - Viscosity Variation |

Link | Tribology | Lecture 25 - Estimating Elastic Deformation |

Link | Tribology | Lecture 26 - Thermo Hydrodynamic Lubrication |

Link | Tribology | Lecture 27 - Application of Tribology |

Link | Tribology | Lecture 28 - Rolling Element Bearings |

Link | Tribology | Lecture 29 - Rolling Element Bearings (Continued...) |

Link | Tribology | Lecture 30 - Rolling Element Bearings (Continued...) |

Link | Tribology | Lecture 31 - Selection of Rolling Element Bearings |

Link | Tribology | Lecture 32 - Friction of Rolling Element Bearing |

Link | Tribology | Lecture 33 - Bearing Clearance |

Link | Tribology | Lecture 34 - Bearing Lubrication |

Link | Tribology | Lecture 35 - Tribology of Gears |

Link | Tribology | Lecture 36 - Friction and Lubrication of Gears |

Link | Tribology | Lecture 37 - Friction and Lubrication of Gears (Continued...) |

Link | Tribology | Lecture 38 - Surface Fatigue of Spur Gears |

Link | Tribology | Lecture 39 - Journal Bearings |

Link | Tribology | Lecture 40 - Hydrostatic Bearings |

Link | Tribology | Lecture 41 - Hydrodynamic Journal Bearings |

Link | Tribology | Lecture 42 - Design of Hydrodynamic Journal Bearings |

Link | Computer Aided Design and Manufacturing | Lecture 1 - An Introduction to CAD |

Link | Computer Aided Design and Manufacturing | Lecture 2 - Input Output Devices, Raster Graphics |

Link | Computer Aided Design and Manufacturing | Lecture 3 - Raster Graphics - I |

Link | Computer Aided Design and Manufacturing | Lecture 4 - Raster Graphics - II |

Link | Computer Aided Design and Manufacturing | Lecture 5 - Polygon Filling |

Link | Computer Aided Design and Manufacturing | Lecture 6 - Windowing and Clipping |

Link | Computer Aided Design and Manufacturing | Lecture 7 - Clipping of Polygons |

Link | Computer Aided Design and Manufacturing | Lecture 8 - 2D Transformations |

Link | Computer Aided Design and Manufacturing | Lecture 9 - 3D Transformations and Projection |

Link | Computer Aided Design and Manufacturing | Lecture 10 - Perspective Projections |

Link | Computer Aided Design and Manufacturing | Lecture 11 - Projections and Hidden Surface Removal |

Link | Computer Aided Design and Manufacturing | Lecture 12 - Hidden Surface Removal |

Link | Computer Aided Design and Manufacturing | Lecture 13 - Hidden Surface Removal |

Link | Computer Aided Design and Manufacturing | Lecture 14 - Hidden Surface Removal |

Link | Computer Aided Design and Manufacturing | Lecture 15 - Finite Element Method : An Introduction |

Link | Computer Aided Design and Manufacturing | Lecture 16 - Galerkin's Approach |

Link | Computer Aided Design and Manufacturing | Lecture 17 - Galerkin's Method : 1D Finite Element Method |

Link | Computer Aided Design and Manufacturing | Lecture 18 - 1D Finite Element Problems |

Link | Computer Aided Design and Manufacturing | Lecture 19 - 1D Finite Element Problems |

Link | Computer Aided Design and Manufacturing | Lecture 20 - FE Problems : Solving for Q |

Link | Computer Aided Design and Manufacturing | Lecture 21 - 1D - FE Problems : Galerkin's Approach |

Link | Computer Aided Design and Manufacturing | Lecture 22 - Penalty Approach and Multi Point Boundary |

Link | Computer Aided Design and Manufacturing | Lecture 23 - Quadratic Shape Functions |

Link | Computer Aided Design and Manufacturing | Lecture 24 - 2D - FE Problems |

Link | Computer Aided Design and Manufacturing | Lecture 25 - 2D - FE Problems (Continued.) |

Link | Computer Aided Design and Manufacturing | Lecture 26 - 3D - FE Problems |

Link | Computer Aided Design and Manufacturing | Lecture 27 - 3D - Tetrahedral and 2D - Quadrilateral Element |

Link | Computer Aided Design and Manufacturing | Lecture 28 - Mesh Preparation |

Link | Computer Aided Design and Manufacturing | Lecture 29 - Modeling of Curves |

Link | Computer Aided Design and Manufacturing | Lecture 30 - Modeling of Curves |

Link | Computer Aided Design and Manufacturing | Lecture 31 - Modeling of Curves |

Link | Computer Aided Design and Manufacturing | Lecture 32 - Modeling of B-Spline Curves |

Link | Computer Aided Design and Manufacturing | Lecture 33 - Modeling of B-spline Curves |

Link | Computer Aided Design and Manufacturing | Lecture 34 - Surface Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 35 - Surface Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 36 - Display of Curves and Surfaces |

Link | Computer Aided Design and Manufacturing | Lecture 37 - Solid Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 38 - Solid Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 39 - Solid Modeling Using Octrees |

Link | Computer Aided Design and Manufacturing | Lecture 40 (Missing) |

Link | Computer Aided Design and Manufacturing | Lecture 41 - Computer Aided Design |

Link | Computer Aided Design and Manufacturing | Lecture 42 - Computer Aided Manufacturing |

Link | Computer Aided Design and Manufacturing | Lecture 43 - What is CAD/CAM |

Link | Computer Aided Design and Manufacturing | Lecture 44 - An Overview of Geometric Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 45 - Parametric Cubic Curve |

Link | Computer Aided Design and Manufacturing | Lecture 46 - Parametric Bezier Curve |

Link | Computer Aided Design and Manufacturing | Lecture 47 - B-Spline Curve |

Link | Computer Aided Design and Manufacturing | Lecture 48 - Parametric Surfaces - Part-1 |

Link | Computer Aided Design and Manufacturing | Lecture 49 - Parametric Surfaces - Part-2 |

Link | Computer Aided Design and Manufacturing | Lecture 50 - Solid Modeling |

Link | Computer Aided Design and Manufacturing | Lecture 51 - Geometric & Product Data Exchange |

Link | Computer Aided Design and Manufacturing | Lecture 52 - Reverse Engineering |

Link | Project and Production Management | Lecture 1 - Project and Production Management - An Overview |

Link | Project and Production Management | Lecture 2 - Project Management: An Overview |

Link | Project and Production Management | Lecture 3 - Project Identification and Screening |

Link | Project and Production Management | Lecture 4 - Project Appraisal - Part I |

Link | Project and Production Management | Lecture 5 - Project Appraisal - Part II |

Link | Project and Production Management | Lecture 6 - Project Selection |

Link | Project and Production Management | Lecture 7 - Project Representation |

Link | Project and Production Management | Lecture 8 - Consistency and Redundancy in Project Networks |

Link | Project and Production Management | Lecture 9 - Basic scheduling with A-O-A Networks |

Link | Project and Production Management | Lecture 10 - Basic Scheduling with A-O-N Networks |

Link | Project and Production Management | Lecture 11 - Project Scheduling with Probabilistic Activity |

Link | Project and Production Management | Lecture 12 - Linear Time-Cost Tradeoffs in Projects |

Link | Project and Production Management | Lecture 13 - Project Crashing with Multiple Objectives |

Link | Project and Production Management | Lecture 14 - Resource Profiles and Leveling |

Link | Project and Production Management | Lecture 15 - Limited Resource Allocation |

Link | Project and Production Management | Lecture 16 - Project Monitoring and Control with PERT/Cost |

Link | Project and Production Management | Lecture 17 - Team Building and Leadership in Projects |

Link | Project and Production Management | Lecture 18 - Organizational and Behavioral Issues |

Link | Project and Production Management | Lecture 19 - Computers in Project Management |

Link | Project and Production Management | Lecture 20 - Project Completion and Review |

Link | Project and Production Management | Lecture 21 - Life Cycle of a Production System |

Link | Project and Production Management | Lecture 22 - Role of Models in Production Management |

Link | Project and Production Management | Lecture 23 - Financial Evaluation of capital Decisions |

Link | Project and Production Management | Lecture 24 - Decision Trees and Risk Evaluation |

Link | Project and Production Management | Lecture 25 - Introducing New Products & Services |

Link | Project and Production Management | Lecture 26 - Economic Evaluation of New Products & Services |

Link | Project and Production Management | Lecture 27 - Product Mix Decisions |

Link | Project and Production Management | Lecture 28 - Product & Process Design |

Link | Project and Production Management | Lecture 29 - Issues in Location of Facilities |

Link | Project and Production Management | Lecture 30 - Mathematical Models for Facility Location |

Link | Project and Production Management | Lecture 31 - Layout planning |

Link | Project and Production Management | Lecture 32 - Computerised Layout Planning |

Link | Project and Production Management | Lecture 33 - Product Layouts and Assembly Line Balancing |

Link | Project and Production Management | Lecture 34 - Forecasting |

Link | Project and Production Management | Lecture 35 - The Analysis of Time Series |

Link | Project and Production Management | Lecture 36 - Aggregate Production Planning: Basic Concepts |

Link | Project and Production Management | Lecture 37 - Modelling Approaches |

Link | Project and Production Management | Lecture 38 - Basic Inventory Principles |

Link | Project and Production Management | Lecture 39 - Inventory Modelling |

Link | Project and Production Management | Lecture 40 - Material Requirements Planning |

Link | Project and Production Management | Lecture 41 - Scheduling of Job Shops |

Link | NOC:RAC Product Design | Lecture 1 - Introduction to Design |

Link | NOC:RAC Product Design | Lecture 2 - Design Considerations |

Link | NOC:RAC Product Design | Lecture 3 - Basic Concepts Psychrometry and Air-Conditioning |

Link | NOC:RAC Product Design | Lecture 4 - Refrigerants |

Link | NOC:RAC Product Design | Lecture 5 - Refrigerant Properties and Applications |

Link | NOC:RAC Product Design | Lecture 6 - Refrigeration Cycle and Components |

Link | NOC:RAC Product Design | Lecture 7 - Compressor Selection |

Link | NOC:RAC Product Design | Lecture 8 - Expansion Devices |

Link | NOC:RAC Product Design | Lecture 9 - Condensers and Evaporators |

Link | NOC:RAC Product Design | Lecture 10 - Types of Heat Exchangers and Air Conditioning Systems |

Link | NOC:RAC Product Design | Lecture 11 - Selection of Air Conditioning Systems for Hostels |

Link | NOC:RAC Product Design | Lecture 12 - Case Study on a Railway Air Conditioning System |

Link | NOC:RAC Product Design | Lecture 13 - Vibration and noise issues in railway AC systems |

Link | NOC:RAC Product Design | Lecture 14 - New product launch process |

Link | NOC:RAC Product Design | Lecture 15 - Case study on a telecom cooling system and Emerging technologies |

Link | NOC:Thermodynamics | Lecture 1 - Thermodynamic Concepts: Applications of thermodynamics |

Link | NOC:Thermodynamics | Lecture 2 - Thermodynamic Concepts: System definition,Heat, Work and Mass Flow |

Link | NOC:Thermodynamics | Lecture 3 - Thermodynamic Concepts: Questions and Answers |

Link | NOC:Thermodynamics | Lecture 4 - Thermodynamic Concepts: Properties,State and Equilibrium |

Link | NOC:Thermodynamics | Lecture 5 - Thermodynamic Concepts: Process, Cycles and Applications |

Link | NOC:Thermodynamics | Lecture 6 - Thermodynamic Concepts: Steady state, Reversible and Irreversible processes |

Link | NOC:Thermodynamics | Lecture 7 - Thermodynamic Concepts: Causes of irreversibility |

Link | NOC:Thermodynamics | Lecture 8 - Thermodynamic Concepts: Thermal reservoirs |

Link | NOC:Thermodynamics | Lecture 9 - Thermodynamic Concepts: Pressure and temperature |

Link | NOC:Thermodynamics | Lecture 10 - Thermodynamic Concepts: Revision and Summary |

Link | NOC:Thermodynamics | Lecture 11 - Laws Of Thermodynamics: Mass flow rate, Conservation of mass, Flow work |

Link | NOC:Thermodynamics | Lecture 12 - Laws Of Thermodynamics: Zeroth Law |

Link | NOC:Thermodynamics | Lecture 13 - Laws Of Thermodynamics: First Laws Of Thermodynamics, 1st law for Control Mass, Internal Energy, enthalpy |

Link | NOC:Thermodynamics | Lecture 14 - Laws Of Thermodynamics: 1st law for Control Volume |

Link | NOC:Thermodynamics | Lecture 15 - Laws Of Thermodynamics: Revision, Cycles, Second Law statements, Clausius inequality |

Link | NOC:Thermodynamics | Lecture 16 - Laws Of Thermodynamics: Introduction to carnot Cycle |

Link | NOC:Thermodynamics | Lecture 17 - Laws Of Thermodynamics: Entropy,Entropy change for a system |

Link | NOC:Thermodynamics | Lecture 18 - Laws Of Thermodynamics: Thermodynamics relations,Bernoulli's equation |

Link | NOC:Thermodynamics | Lecture 19 - Laws Of Thermodynamics: Devices, Cycles |

Link | NOC:Thermodynamics | Lecture 20 - Properties of a Pure Substance: Thermodynamic behaviour of a pure substance |

Link | NOC:Thermodynamics | Lecture 21 - Properties of a Pure Substance: Saturated states, Subcooled liquid, Superheated vapour |

Link | NOC:Thermodynamics | Lecture 22 - Properties of a Pure Substance: Vapour pressure curve, Reference state |

Link | NOC:Thermodynamics | Lecture 23 - Properties of a Pure Substance: Saturated states |

Link | NOC:Thermodynamics | Lecture 24 - Properties of a Pure Substance: p-h diagram |

Link | NOC:Thermodynamics | Lecture 25 - Properties of a Pure Substance: T-s diagram, h-s diagram |

Link | NOC:Thermodynamics | Lecture 26 - Properties of a Pure Substance: Critical state, Compressibility factor |

Link | NOC:Thermodynamics | Lecture 27 - Properties of a Pure Substance: Ideal gas behaviour, Equations of state, Specific heat |

Link | NOC:Thermodynamics | Lecture 28 - Properties of a Pure Substance: Ideal gas processes |

Link | NOC:Thermodynamics | Lecture 29 - Properties of a Pure Substance: Gibbs energy, Helmholtz function, Property relations |

Link | NOC:Thermodynamics | Lecture 30 - Properties of a Pure Substance: Process analysis, Summary |

Link | NOC:Thermodynamics | Lecture 31 - Laws of Thermodynamics: Carnot Cycle Realization |

Link | NOC:Thermodynamics | Lecture 32 - Applications, Problem Solving: Devices, Schematic/Flow Diagrams |

Link | NOC:Thermodynamics | Lecture 33 - Applications, Problem Solving: Positive Displacement Devices |

Link | NOC:Thermodynamics | Lecture 34 - Applications, Problem Solving: Heat Exchangers |

Link | NOC:Thermodynamics | Lecture 35 - Applications, Problem Solving: Compressors, Fans and Blowers, Pumps |

Link | NOC:Thermodynamics | Lecture 36 - Applications, Problem Solving: Turbines |

Link | NOC:Thermodynamics | Lecture 37 - Applications, Problem Solving: Nozzle, Diffuser, Expansion Valve, Pipe/duct flow |

Link | NOC:Thermodynamics | Lecture 38 - Applications, Problem Solving: De-Superheater, Deaerator, Separation |

Link | NOC:Thermodynamics | Lecture 39 - Applications, Problem Solving: Unsteady processes, Filling, Evacuation |

Link | NOC:Thermodynamics | Lecture 40 - Applications, Problem Solving: Realization of Carnot cycle, Practical cycles, Air-standard cycles |

Link | NOC:Thermodynamics | Lecture 41 - Applications, Problem Solving: Materials, Compressible flow |

Link | NOC:Thermodynamics | Lecture 42 - Applications, Problem Solving: Otto cycle, Diesel cycle |

Link | NOC:Thermodynamics | Lecture 43 - Applications, Problem Solving: Closed system |

Link | NOC:Thermodynamics | Lecture 44 - Applications, Problem Solving: Open System |

Link | NOC:Thermodynamics | Lecture 45 - Properties of Ideal Gas Mixtures: Introduction to mixtures properties |

Link | NOC:Thermodynamics | Lecture 46 - Properties of Ideal Gas Mixtures: Equation of state, Conservation equations |

Link | NOC:Thermodynamics | Lecture 47 - Gas-Vapour Mixtures: Psychrometry, Moist air Properties, |

Link | NOC:Thermodynamics | Lecture 48 - Gas-Vapour Mixtures: Properties, Conservation of Mass and Energy |

Link | NOC:Thermodynamics | Lecture 49 - Gas-Vapour Mixtures: Psychrometric chart, Applications |

Link | NOC:Thermodynamics | Lecture 50 - Thermodynamics of Reacting sytems: Introduction to reacting systems and combustion |

Link | NOC:Thermodynamics | Lecture 51 - Thermodynamics of Reacting sytems: Flames, Stoichiometry |

Link | NOC:Thermodynamics | Lecture 52 - Thermodynamics of Reacting sytems: Analysis of Closed and Open Systems, Enthalpy of Formation |

Link | NOC:Thermodynamics | Lecture 53 - Phase and Chemical Equilibrium: Introduction. Chemical equilibrium. Gibbs function |

Link | NOC:Thermodynamics | Lecture 54 - Phase and Chemical Equilibrium: Equilibrium constant. Phase equilibrium |

Link | NOC:Solid Mechanics | Lecture 1 - Mathematical Concepts: Working with Vectors and Tensors |

Link | NOC:Solid Mechanics | Lecture 2 - Traction Vector |

Link | NOC:Solid Mechanics | Lecture 3 - Stress Tensor and its Matrix Representation |

Link | NOC:Solid Mechanics | Lecture 4 - Transformation of Stress Matrix |

Link | NOC:Solid Mechanics | Lecture 5 - Stress Equilibrium Equations : Balance of Linear and Angular Momentum |

Link | NOC:Solid Mechanics | Lecture 6 - Balance of Angular Momentum (Continued...) |

Link | NOC:Solid Mechanics | Lecture 7 - Principal Planes and Principal stress components |

Link | NOC:Solid Mechanics | Lecture 8 - Maximizing the Shear Component of Traction |

Link | NOC:Solid Mechanics | Lecture 9 - Mohr's Circle |

Link | NOC:Solid Mechanics | Lecture 10 - Mohr's Circle (Continued...), Stress Invariants, Decomposition of the Stress Tensor |

Link | NOC:Solid Mechanics | Lecture 11 - Concept of Strain Tensor |

Link | NOC:Solid Mechanics | Lecture 12 - Longitudinal and Shear Strains |

Link | NOC:Solid Mechanics | Lecture 13 - Local Volumetric Strain and Local Infinitesimal Rotation |

Link | NOC:Solid Mechanics | Lecture 14 - Similarity in Properties of Stress and Strain Tensors |

Link | NOC:Solid Mechanics | Lecture 15 - Stress-Strain Relation |

Link | NOC:Solid Mechanics | Lecture 16 - Stress-Strain Relation for Isotropic Materials |

Link | NOC:Solid Mechanics | Lecture 17 - Linear Momentum Balance in Cylinderical Coordinate System |

Link | NOC:Solid Mechanics | Lecture 18 - Linear Momentum Balance in Cylinderical Coordinate System (Continued...) |

Link | NOC:Solid Mechanics | Lecture 19 - Strain Matrix Cylinderical Coordinate System |

Link | NOC:Solid Mechanics | Lecture 20 - Extension-Torsion-Inflation in a Hollow Cylinder |

Link | NOC:Solid Mechanics | Lecture 21 - Extension-Torsion-Inflation in a Hollow Cylinder (Continued...) |

Link | NOC:Solid Mechanics | Lecture 22 - Solving Problems Involving Torsion of Shafts |

Link | NOC:Solid Mechanics | Lecture 23 - Pure Bending of Rectangular Beams |

Link | NOC:Solid Mechanics | Lecture 24 - Bending of Beams (Continued...) |

Link | NOC:Solid Mechanics | Lecture 25 - Bending of Unsymmetrical Beams |

Link | NOC:Solid Mechanics | Lecture 26 - Concept of Shear Center |

Link | NOC:Solid Mechanics | Lecture 27 - Theoy of Beams |

Link | NOC:Solid Mechanics | Lecture 28 - Theoy of Beams (Continued...) and Beam Buckling |

Link | NOC:Solid Mechanics | Lecture 29 - Energy Methods |

Link | NOC:Solid Mechanics | Lecture 30 - Energy Methods (Continued...) |

Link | NOC:Solid Mechanics | Lecture 31 - Theories of Failure |

Link | NOC:Solid Mechanics | Lecture 32 - Theories of Failure (Continued...) |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 1 - Course Outline, Introduction |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 2 - Experimentation Processes and Applications Overview |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 3 - Developments in Uncertainty Analysis, Approach |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 4 - Errors, Their Causes and Classification |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 5 - Errors to Uncertainty via Statistics |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 6 - Sources of Errors, Uncertainty Definitions |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 7 - Experimentation - I |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 8 - Experimentation Stages / Phases I |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 9 - Experimentation Stages / Phases II |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 10 - Uncertainty Analysis Processes |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 11 - Instrument ans DAS |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 12 - Basic procedure - I |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 13 - Basic procedure - II |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 14 - Evaluating systematic uncertainties |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 15 - Worksheets for uncertainty in a measurement, Examples |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 16 - Examples of uncertainty in a measurement |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 17 - Methodologies, Multiple tests method |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 18 - Single test, Basics of taylor Series Method |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 19 - Sensitivity coefficient, Result uncertainty from TSM |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 20 - Result uncertainty TSM: Special cases |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 21 - Method selection, Worksheets for result uncertainty |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 22 - Examples for result uncertainty - 1 |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 23 - Examples for result uncertainty - 2 |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 24 - Regression Introduction |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 25 - Regression analysis - Linear, single variable |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 26 - Correlation, Related topics |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 27 - Reporting uncertainties |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 28 - Validation and verification aspects, Data archiving |

Link | NOC:Introduction to Uncertainty Analysis and Experimentation | Lecture 29 - Course overview |

Link | NOC:Engineering Graphics and Design | Lecture 1 - Introduction |

Link | NOC:Engineering Graphics and Design | Lecture 2 - Examples of visualization - 1 |

Link | NOC:Engineering Graphics and Design | Lecture 3 - Examples of visualization - 2 |

Link | NOC:Engineering Graphics and Design | Lecture 4 - Visualization and drawing |

Link | NOC:Engineering Graphics and Design | Lecture 5 - Sketch to engineering drawing |

Link | NOC:Engineering Graphics and Design | Lecture 6 - Types of projections |

Link | NOC:Engineering Graphics and Design | Lecture 7 - Multiview projections |

Link | NOC:Engineering Graphics and Design | Lecture 8 - 1st and 3rd angle projections |

Link | NOC:Engineering Graphics and Design | Lecture 9 - Sketching |

Link | NOC:Engineering Graphics and Design | Lecture 10 - Visualization |

Link | NOC:Engineering Graphics and Design | Lecture 11 - Drawing sheet |

Link | NOC:Engineering Graphics and Design | Lecture 12 - Lines |

Link | NOC:Engineering Graphics and Design | Lecture 13 - Dimensioning |

Link | NOC:Engineering Graphics and Design | Lecture 14 - Projection of a point line and plane |

Link | NOC:Engineering Graphics and Design | Lecture 15 - Projection of simple objects |

Link | NOC:Engineering Graphics and Design | Lecture 16 - Example Projection of a solid |

Link | NOC:Engineering Graphics and Design | Lecture 17 - Example Projection of an object |

Link | NOC:Engineering Graphics and Design | Lecture 18 - Types of Solids |

Link | NOC:Engineering Graphics and Design | Lecture 19 - Polygons Construction and Projections |

Link | NOC:Engineering Graphics and Design | Lecture 20 - Rotation of Solids |

Link | NOC:Engineering Graphics and Design | Lecture 21 - Example Rotation of Solids |

Link | NOC:Engineering Graphics and Design | Lecture 22 - Section views |

Link | NOC:Engineering Graphics and Design | Lecture 23 - Sectioning practices |

Link | NOC:Engineering Graphics and Design | Lecture 24 - Auxiliary views |

Link | NOC:Engineering Graphics and Design | Lecture 25 - Example Section View |

Link | NOC:Engineering Graphics and Design | Lecture 26 - Example Auxiliary View |

Link | NOC:Engineering Graphics and Design | Lecture 27 - Pictorial Drawings |

Link | NOC:Engineering Graphics and Design | Lecture 28 - Construction of Isometric Drawings |

Link | NOC:Engineering Graphics and Design | Lecture 29 - Example Isometric drawings |

Link | NOC:Engineering Graphics and Design | Lecture 30 - Working Drawing |

Link | NOC:Engineering Graphics and Design | Lecture 31 - Example Sectional View of Assembly |

Link | NOC:Engineering Graphics and Design | Lecture 32 - Computer Aided Design |

Link | NOC:Engineering Graphics and Design | Lecture 33 - Autodesk Inventor Environment |

Link | NOC:Engineering Graphics and Design | Lecture 34 - Sketching for Solid Modelling |

Link | NOC:Engineering Graphics and Design | Lecture 35 - Example 1 Extrude Hole Fillet Chamfer |

Link | NOC:Engineering Graphics and Design | Lecture 36 - Example 2 Rib Mirror |

Link | NOC:Engineering Graphics and Design | Lecture 37 - Example 3 |

Link | NOC:Engineering Graphics and Design | Lecture 38 - Revolve Loft Pattern |

Link | NOC:Engineering Graphics and Design | Lecture 39 - Example 4 |

Link | NOC:Engineering Graphics and Design | Lecture 40 - Example 5 |

Link | NOC:Engineering Graphics and Design | Lecture 41 - Spline Sweep Shell |

Link | NOC:Engineering Graphics and Design | Lecture 42 - Example 6 |

Link | NOC:Engineering Graphics and Design | Lecture 43 - Example 7 |

Link | NOC:Engineering Graphics and Design | Lecture 44 - Drawing from Solid Model |

Link | NOC:Engineering Graphics and Design | Lecture 45 - Assembly with constraints |

Link | NOC:Engineering Graphics and Design | Lecture 46 - Example 8 |

Link | NOC:Engineering Graphics and Design | Lecture 47 - Example 9 |

Link | NOC:Engineering Graphics and Design | Lecture 48 - Example 10 |

Link | NOC:Engineering Graphics and Design | Lecture 49 - Example 11 |

Link | NOC:Engineering Graphics and Design | Lecture 50 - Civil and architectural drawings |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 1 - Ideal fluids, Velocity potential, Potential flows |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 2 - Stream function, Orthogonality of streamlines and equipotential lines |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 3 - Complex variables, Analyticity, Cauchy - Riemann equations, Complex potential, Complex velocity |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 4 - Elementary flows : Uniform flow, Source and Sink, Free vortex |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 5 - Flow in a bend, Flow around a sharp edge |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 6 - Superposition of source and sink : doublet flow |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 7 - Superposition of uniform flow and doublet |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 8 - Superposition of uniform flow, doublet and free vortex |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 9 - Superposition of source and uniform flow |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 10 - Problem solving session - 1 |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 11 - Problem solving session - 2 |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 12 - Method of images, Forces on a body, Blasius theorem |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 13 - Calculation of forces using derived flow field |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 14 - Introduction to conformal transformation |

Link | NOC:Ideal Fluid Flows using Complex Analysis | Lecture 15 - Singularities and their transformations |

Link | NOC:Experimental Modal Analysis | Lecture 1 |

Link | NOC:Experimental Modal Analysis | Lecture 2 |

Link | NOC:Experimental Modal Analysis | Lecture 3 |

Link | NOC:Experimental Modal Analysis | Lecture 4 |

Link | NOC:Experimental Modal Analysis | Lecture 5 |

Link | NOC:Experimental Modal Analysis | Lecture 6 |

Link | NOC:Experimental Modal Analysis | Lecture 7 |

Link | NOC:Experimental Modal Analysis | Lecture 8 |

Link | NOC:Experimental Modal Analysis | Lecture 9 |

Link | NOC:Experimental Modal Analysis | Lecture 10 |

Link | NOC:Experimental Modal Analysis | Lecture 11 |

Link | NOC:Experimental Modal Analysis | Lecture 12 |

Link | NOC:Experimental Modal Analysis | Lecture 13 |

Link | NOC:Experimental Modal Analysis | Lecture 14 |

Link | NOC:Experimental Modal Analysis | Lecture 15 |

Link | NOC:Experimental Modal Analysis | Lecture 16 |

Link | NOC:Experimental Modal Analysis | Lecture 17 |

Link | NOC:Experimental Modal Analysis | Lecture 18 |

Link | NOC:Experimental Modal Analysis | Lecture 19 |

Link | NOC:Experimental Modal Analysis | Lecture 20 |

Link | NOC:Experimental Modal Analysis | Lecture 21 |

Link | NOC:Experimental Modal Analysis | Lecture 22 |

Link | NOC:Experimental Modal Analysis | Lecture 23 |

Link | NOC:Experimental Modal Analysis | Lecture 24 |

Link | NOC:Experimental Modal Analysis | Lecture 25 |

Link | NOC:Experimental Modal Analysis | Lecture 26 |

Link | NOC:Experimental Modal Analysis | Lecture 27 |

Link | NOC:Experimental Modal Analysis | Lecture 28 |

Link | NOC:Experimental Modal Analysis | Lecture 29 |

Link | NOC:Experimental Modal Analysis | Lecture 30 |

Link | NOC:Experimental Modal Analysis | Lecture 31 |

Link | NOC:Experimental Modal Analysis | Lecture 32 |

Link | NOC:Experimental Modal Analysis | Lecture 33 |

Link | NOC:Experimental Modal Analysis | Lecture 34 |

Link | NOC:Experimental Modal Analysis | Lecture 35 |

Link | NOC:Experimental Modal Analysis | Lecture 36 |

Link | NOC:Experimental Modal Analysis | Lecture 37 |

Link | NOC:Experimental Modal Analysis | Lecture 38 |

Link | NOC:Experimental Modal Analysis | Lecture 39 |

Link | NOC:Experimental Modal Analysis | Lecture 40 |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 1 - Introduction to polymers |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 2 - Polymer structure |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 3 - Polymer classification |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 4 - Polymer length, packing and tacticity |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 5 - Glass transition temperature |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 6 - Temperature effects, glassy regime |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 7 - Viscoelastic, rubbery, viscous, decomposition |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 8 - Relaxation and creep tests |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 9 - Failure of polymers |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 10 - Heaviside, Dirac delta, Laplace |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 11 - Introduction to linear viscoelasticity |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 12 - Phenomenological models for linear viscoelasticity |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 13 - Maxwell model |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 14 - Kelvin model |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 15 - Three and four parameter models |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 16 - Generalized Maxwell and Kelvin models |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 17 - Boltzman superposition principle |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 18 - Alfrey's correspondence principle |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 19 - Analysis of viscoelastic bars |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 20 - Analysis of viscoelastic beams |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 21 - Dynamic mechanical analysis (DMA) |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 22 - Dynamic mechanical thermal analysis (DMTA) |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 23 - Time temperature superposition principle (TTSP) |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 24 - Plastic design consideration and practices |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 25 - What are composites? |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 26 - Composite materials and types |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 27 - Composite advantages and applications |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 28 - Fabrication and other aspects of composites |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 29 - 3D stress and strain components |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 30 - Symmetry in stress, strain and stiffness matrix |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 31 - Monoclinic, orthotropic and isotropic materials |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 32 - 3D stress strain relation for orthotropic material |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 33 - Plane stress: Specially orthotropic material |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 34 - Plane stress: Generally orthotropic material |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 35 - Lamina engineering constants |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 36 - Lamina hygrothermal effects |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 37 - Lamina fundamental strengths |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 38 - Lamina failure criteria |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 39 - Tsai-Hill and Hoffman failure criteria |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 40 - Micromechanics: Assumptions, RVE |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 41 - Micromechanics: Stiffness prediction |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 42 - Micromechanics: Stiffness and strength |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 43 - Macromechanics of laminate |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 44 - Classical laminate theory |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 45 - Classical laminate theory - II |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 46 - Symmetric laminates, orthotropic laminates |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 47 - Angle-ply, cross-ply and quasi-isotropic laminates |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 48 - Hygrothermal stresses in laminates |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 49 - Laminate failure |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 50 - Design practices with laminates |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 51 - Sandwich structures |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 52 - Composites testing |

Link | NOC:Mechanical Behavior of Polymers and Composites | Lecture 53 - Joining of composites |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 1 - Introduction to Tribology |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 2 - Tribological Interfaces |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 3 - Fundamentals of Friction and Wear |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 4 - Adhesion, Abrasion, and Surface Fatigue Mechanisms |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 5 - Wear Measurement Techniques |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 6 - Principles of Lubrication, types of Lubricants and their properties |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 7 - Lubrication regimes and film thickness calculations |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 8 - Mixed Lubrication |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 9 - Hydrodynamic Lubrication Theory |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 10 - Design Considerations for Hydrodynamic Lubrication Systems |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 11 - Elastohydrodynamic Lubrication |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 12 - Solid Lubrication |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 13 - Surface modification techniques for tribological applications |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 14 - Thin film coatings and their tribological properties |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 15 - Nanotribology |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 16 - Tribocorrosion |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 17 - Wear testing techniques and standards |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 18 - Measurement and analysis of wear debris |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 19 - Experimental Design and Statistical Analysis |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 20 - Introduction to Data-Enabled Engineering |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 21 - Data Collection and Preprocessing |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 22 - Feature Extraction and Selection |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 23 - Introduction to Machine Learning Algorithms |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 24 - Regression and Classification Algorithms for Tribological Modeling |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 25 - Deep Learning for Tribological Engineering |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 26 - Data-Driven Models for Friction Prediction |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 27 - Data-Driven Models for Wear Prediction |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 28 - Data-Driven Models for Lubricant Optimization |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 29 - Data-Driven Models for Tribofilm Formation |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 30 - Data-Driven Models for Tribocorrosion Prediction |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 31 - Prediction of Coating and Surface Treatment Performance |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 32 - Optimization of Surface Engineering Processes using Machine Learning |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 33 - Uncertainty Quantification and Sensitivity Analysis |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 34 - Data Management and Ethics in Data-Enabled Engineering |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 35 - Case Studies in Data-Enabled Tribological Engineering |

Link | NOC:Data-Enabled Tribological Engineering: From Experiments to Predictive Models | Lecture 36 - Future Directions in Data-Enabled Tribological Engineering |

Link | Nonlinear Vibration | Lecture 1 - Introduction of Nonlinear systems |

Link | Nonlinear Vibration | Lecture 2 - Review of Linear vibrating systems |

Link | Nonlinear Vibration | Lecture 3 - Phenomena associated with Nonlinear systems |

Link | Nonlinear Vibration | Lecture 4 - Commonly observed Phenomena in Nonlinear systems |

Link | Nonlinear Vibration | Lecture 5 - Force and Moment based Approach |

Link | Nonlinear Vibration | Lecture 6 - Energy based approach Extended Hamilton’s principle and Lagrange Priciple |

Link | Nonlinear Vibration | Lecture 7 - Derivation of Equation of motion of nonlinear discrete system (More examples) |

Link | Nonlinear Vibration | Lecture 8 - Derivation of Equation of motion of nonlinear continuous system - 1 |

Link | Nonlinear Vibration | Lecture 9 - Derivation of Equation of motion of nonlinear continuous system - 2 |

Link | Nonlinear Vibration | Lecture 10 - Ordering of nonlinear Equation of motion |

Link | Nonlinear Vibration | Lecture 11 - Qualitative Analysis Straight forward expansion |

Link | Nonlinear Vibration | Lecture 12 - Numerical method Straight forward expansion |

Link | Nonlinear Vibration | Lecture 13 - Lindstedt Poincare’ technique |

Link | Nonlinear Vibration | Lecture 14 - Method of multiple scales |

Link | Nonlinear Vibration | Lecture 15 - Method of Harmonic balance |

Link | Nonlinear Vibration | Lecture 16 - Method of averaging |

Link | Nonlinear Vibration | Lecture 17 - Generalized Method of averaging |

Link | Nonlinear Vibration | Lecture 18 - Krylov-Bogoliubov-Mitropolski technique |

Link | Nonlinear Vibration | Lecture 19 - Incremental harmonic balance method and Intrinsic multiple scale harmonic balance method |

Link | Nonlinear Vibration | Lecture 20 - Modified Lindstedt Poincare’ technique |

Link | Nonlinear Vibration | Lecture 21 - Stability and Bifurcation of Fixed-point response - 1 |

Link | Nonlinear Vibration | Lecture 22 - Stability and Bifurcation of Fixed-point response - 2 |

Link | Nonlinear Vibration | Lecture 23 - Stability and Bifurcation of Fixed-point response - 3 |

Link | Nonlinear Vibration | Lecture 24 - Stability and Bifurcation of Fixed-point response - 4 |

Link | Nonlinear Vibration | Lecture 25 - Stability Analysis of Periodic response |

Link | Nonlinear Vibration | Lecture 26 - Bifurcation of Periodic response And Introduction to quasi-periodic and Chaotic response |

Link | Nonlinear Vibration | Lecture 27 - Quasi-Periodic and Chaotic response |

Link | Nonlinear Vibration | Lecture 28 - Numerical methods to obtain roots of characteristic equation and time response |

Link | Nonlinear Vibration | Lecture 29 - Numerical methods to obtain time response |

Link | Nonlinear Vibration | Lecture 30 - Numerical methods to obtain frequency response |

Link | Nonlinear Vibration | Lecture 31 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities |

Link | Nonlinear Vibration | Lecture 32 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities: effect of damping |

Link | Nonlinear Vibration | Lecture 33 - Free Vibration of multi- degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities |

Link | Nonlinear Vibration | Lecture 34 - Forced nonlinear Vibration Single degree of freedom Nonlinear systems with Cubic nonlinearities: |

Link | Nonlinear Vibration | Lecture 35 - Forced nonlinear Vibration Single and multi- degree of freedom Nonlinear systems |

Link | Nonlinear Vibration | Lecture 36 - Nonlinear Forced-Vibration of Single and Multi Degree-of-Freedom System |

Link | Nonlinear Vibration | Lecture 37 - Analysis of Multi- degree of freedom system |

Link | Nonlinear Vibration | Lecture 38 - Nonlinear Vibration of Parametrically excited system: Axially loaded sandwich beam |

Link | Nonlinear Vibration | Lecture 39 - Nonlinear Vibration of Parametrically excited system: Elastic and Magneto-elastic beam |

Link | Nonlinear Vibration | Lecture 40 - Nonlinear Vibration of Parametrically excited system with internal resonance |

Link | Theory and Practice of Rotor Dynamics | Lecture 1 - Introduction |

Link | Theory and Practice of Rotor Dynamics | Lecture 2 - A Brief History of Rotor Dynamics |

Link | Theory and Practice of Rotor Dynamics | Lecture 3 - The State of the Art of Rotor Dynamics |

Link | Theory and Practice of Rotor Dynamics | Lecture 4 - Simple Rotor Models with Rigid Bearings |

Link | Theory and Practice of Rotor Dynamics | Lecture 5 - Jeffcott Rotor Model |

Link | Theory and Practice of Rotor Dynamics | Lecture 6 - Variant of Jeffcott Rotor Model |

Link | Theory and Practice of Rotor Dynamics | Lecture 7 - Rigid Rotor Mounted on Simple Anistropic Springs as Bearings |

Link | Theory and Practice of Rotor Dynamics | Lecture 8 - Rigid Rotor Mounted on Complex Anisotropic Bearings |

Link | Theory and Practice of Rotor Dynamics | Lecture 9 - Flexible Shaft with a Rigid Disc Mounted on Anistropic Supports |

Link | Theory and Practice of Rotor Dynamics | Lecture 10 - Gyroscopic Effects : Synchronous whirl of a Rotor Systems with a thin Disc |

Link | Theory and Practice of Rotor Dynamics | Lecture 11 - Gyroscopic Effects : Synchronous and Asynchronous pure wobbling motions |

Link | Theory and Practice of Rotor Dynamics | Lecture 12 - Gyroscopic Effects : Asynchronous whirl of a Rotor system with a thin Disc |

Link | Theory and Practice of Rotor Dynamics | Lecture 13 - Gyroscopic Effects : Asynchronous whirl analysis with Dynamic Approach |

Link | Theory and Practice of Rotor Dynamics | Lecture 14 - Torsional Vibrations: Simple Rotor Systems |

Link | Theory and Practice of Rotor Dynamics | Lecture 15 - Three Disc Rotor System |

Link | Theory and Practice of Rotor Dynamics | Lecture 16 - Transfer Matrix Approach - Part I |

Link | Theory and Practice of Rotor Dynamics | Lecture 17 - Transfer Matrix Approach - Part II |

Link | Theory and Practice of Rotor Dynamics | Lecture 18 - Transfer Matrix Approach - Part III |

Link | Theory and Practice of Rotor Dynamics | Lecture 19 - Geared and Branched Systems |

Link | Theory and Practice of Rotor Dynamics | Lecture 20 - Continuous System and Finite Element Method |

Link | Theory and Practice of Rotor Dynamics | Lecture 21 - Finite Element Method |

Link | Theory and Practice of Rotor Dynamics | Lecture 22 - Finite Element Analysis |

Link | Theory and Practice of Rotor Dynamics | Lecture 23 - Finite Element Analysis - Part III |

Link | Theory and Practice of Rotor Dynamics | Lecture 24 - Influence Coefficient Method |

Link | Theory and Practice of Rotor Dynamics | Lecture 25 - Transfer Matrix Method - Part I |

Link | Theory and Practice of Rotor Dynamics | Lecture 26 - Transfer Matrix Method - Part II |

Link | Theory and Practice of Rotor Dynamics | Lecture 27 - Transfer Matrix Method - Part III |

Link | Theory and Practice of Rotor Dynamics | Lecture 28 - Continuous System Approach |

Link | Theory and Practice of Rotor Dynamics | Lecture 29 - Finite Element Method - Part I |

Link | Theory and Practice of Rotor Dynamics | Lecture 30 - Finite Element Method - Part II |

Link | Theory and Practice of Rotor Dynamics | Lecture 31 - Finite Element Method - Part III |

Link | Theory and Practice of Rotor Dynamics | Lecture 32 - Instability in Rotor Systems: Bearings |

Link | Theory and Practice of Rotor Dynamics | Lecture 33 - Fluid-Film Bearings |

Link | Theory and Practice of Rotor Dynamics | Lecture 34 - Internal Damping & Asymmetrical Shaft |

Link | Theory and Practice of Rotor Dynamics | Lecture 35 - Steam Whirl and Seals |

Link | Theory and Practice of Rotor Dynamics | Lecture 36 - Subcritical Speed Whirl |

Link | Theory and Practice of Rotor Dynamics | Lecture 37 - Introduction to Rigid Rotor Balancing |

Link | Theory and Practice of Rotor Dynamics | Lecture 38 - Dynamic Balancing of Rotors: Rigid Rotor Balancing |

Link | Theory and Practice of Rotor Dynamics | Lecture 39 - Dynamic Balancing of Rotors:Flexible Rotor Model Balancing |

Link | Theory and Practice of Rotor Dynamics | Lecture 40 - Dynamic Balancing of Rotors:Influence Coefficient Method for Flexible Rotor |

Link | Theory and Practice of Rotor Dynamics | Lecture 41 - Common Faults & Vibration signatures |

Link | Theory and Practice of Rotor Dynamics | Lecture 42 - Condition Based Monitoring |

Link | Engineering Mechanics | Lecture 1 - Fundamentals Of Engineering Mechanics |

Link | Engineering Mechanics | Lecture 2 - Equations of Equilibrium |

Link | Engineering Mechanics | Lecture 3 - Truss Analysis - Part 1 |

Link | Engineering Mechanics | Lecture 4 - Truss Analysis - Part 2 |

Link | Engineering Mechanics | Lecture 5 - Analysis of Frames Machines |

Link | Engineering Mechanics | Lecture 6 - Internal Forces |

Link | Engineering Mechanics | Lecture 7 - Internal Forces in Beams |

Link | Engineering Mechanics | Lecture 8 - Cables |

Link | Engineering Mechanics | Lecture 9 - Friction |

Link | Engineering Mechanics | Lecture 10 - Application of Friction - Part 1 |

Link | Engineering Mechanics | Lecture 11 - Application of Friction - Part 2 |

Link | Engineering Mechanics | Lecture 12 - Application of Friction - Part 3 |

Link | Engineering Mechanics | Lecture 13 - Centroids Center of Mass |

Link | Engineering Mechanics | Lecture 14 - Centroids Area of Moments |

Link | Engineering Mechanics | Lecture 15 - Product of Inertia, Rotation of Axis and Principle Moments of Inertia |

Link | Engineering Mechanics | Lecture 16 - Principle Mass Moments of Inertia |

Link | Engineering Mechanics | Lecture 17 - Second Moment of Mass |

Link | Engineering Mechanics | Lecture 18 - Virtual Work of Ideal System |

Link | Engineering Mechanics | Lecture 19 - Principle of Virtual Work |

Link | Engineering Mechanics | Lecture 20 - Systems with Friction |

Link | Engineering Mechanics | Lecture 21 - Potential Energy |

Link | Engineering Mechanics | Lecture 22 - Stability of Equilibrium |

Link | Engineering Mechanics | Lecture 23 - Kinematics of a Particles |

Link | Engineering Mechanics | Lecture 24 - Kinematics of a Particle Moving on a Curve |

Link | Engineering Mechanics | Lecture 25 - Relative Motion |

Link | Engineering Mechanics | Lecture 26 - Plane Kinematics of Rigid Bodies |

Link | Engineering Mechanics | Lecture 27 - Kinematics of a Particle |

Link | Engineering Mechanics | Lecture 28 - Work and Energy |

Link | Engineering Mechanics | Lecture 29 - Impulse and Momentum |

Link | Engineering Mechanics | Lecture 30 - Direct and Oblique Impulse |

Link | Engineering Mechanics | Lecture 31 - Plane Kinetics of Rigid Bodies |

Link | Engineering Mechanics | Lecture 32 - Kinetics of a Body |

Link | Engineering Mechanics | Lecture 33 - Method of Momentum and Analysis of Robot Manipulator |

Link | Engineering Mechanics | Lecture 34 - Kinematics in 3D |

Link | Engineering Mechanics | Lecture 35 - Kinetics in 3D |

Link | Engineering Mechanics | Lecture 36 - Free Vibration |

Link | Engineering Mechanics | Lecture 37 - Forced Vibration Damped Undamped |

Link | Engineering Mechanics | Lecture 38 - Vibration of Rigid Bodies - Part 1 |

Link | Engineering Mechanics | Lecture 39 - Vibration of Rigid Bodies - Part 2 |

Link | Engineering Mechanics | Lecture 40 - Some Problems of Vibration |

Link | Mechanical Vibrations | Lecture 1 - Overview of the Course, Practical and Research Trends |

Link | Mechanical Vibrations | Lecture 2 - Harmonic and Periodic Motions, Vibration Terminology |

Link | Mechanical Vibrations | Lecture 3 - Vibration Model, Equation of Motion-Natural Frequency |

Link | Mechanical Vibrations | Lecture 4 - Energy Method, Principle of Virtual Work |

Link | Mechanical Vibrations | Lecture 5 - Viscously Damped Free Vibration Special Cases: Oscillatory |

Link | Mechanical Vibrations | Lecture 6 - Logarithmic Decrement Experimental Determination of Damping Coefficient Hystersis Loop |

Link | Mechanical Vibrations | Lecture 7 - Coulomb Damping other Damping Models |

Link | Mechanical Vibrations | Lecture 8 - Forced Harmonic Vibration, Magnification Factor |

Link | Mechanical Vibrations | Lecture 9 - Laplace Transform, Superposition Theorem |

Link | Mechanical Vibrations | Lecture 10 - Rotor Unbalance and Whirling of Shaft, Transmissibility |

Link | Mechanical Vibrations | Lecture 11 - Support Motion, Vibration Isolation |

Link | Mechanical Vibrations | Lecture 12 - Sharpness of Resonance, Vibration Measuring Instruments |

Link | Mechanical Vibrations | Lecture 13 - Generalized and Principle Coordinates, Derivation of Equation of Motion |

Link | Mechanical Vibrations | Lecture 14 - Lagranges's Equation |

Link | Mechanical Vibrations | Lecture 15 - Coordinate Coupling |

Link | Mechanical Vibrations | Lecture 16 - Forced Harmonic Vibration |

Link | Mechanical Vibrations | Lecture 17 - Tuned Absorber, Determination of Mass Ratio |

Link | Mechanical Vibrations | Lecture 18 - Tuned and Damped Absorber, Untuned Viscous Damper |

Link | Mechanical Vibrations | Lecture 19 - Derivation of Equations of Motion, Influence Coefficient Method |

Link | Mechanical Vibrations | Lecture 20 - Properties of Vibrating Systems: Flexibility & Stiffness Matrices, Reciprocity Theorem |

Link | Mechanical Vibrations | Lecture 21 - Modal Analysis: Undamped |

Link | Mechanical Vibrations | Lecture 22 - Modal Analysis: Damped |

Link | Mechanical Vibrations | Lecture 23 - Simple Systems With One Two or Three Discs Geared System |

Link | Mechanical Vibrations | Lecture 24 - Multi-Degree of Freedom Systems-Transfer Matrix Method Branched Systems |

Link | Mechanical Vibrations | Lecture 25 - Derivation of Equations of Motion Part 1 - Newton |

Link | Mechanical Vibrations | Lecture 26 - Derivation of Equations of Motion Part 2 - Newton |

Link | Mechanical Vibrations | Lecture 27 - Vibration of Strings |

Link | Mechanical Vibrations | Lecture 28 - Longitudinal and Torsional Vibration of Rods |

Link | Mechanical Vibrations | Lecture 29 - Transverse Vibration of Beams, Equations of Motion and Boundary Conditions |

Link | Mechanical Vibrations | Lecture 30 - Transverse Vibration of Beams: Natural Frequencies and Mode Shapes |

Link | Mechanical Vibrations | Lecture 31 - Rayleigh's Energy Method |

Link | Mechanical Vibrations | Lecture 32 - Matrix Iteration Method |

Link | Mechanical Vibrations | Lecture 33 - Durkerley, Rayleigh-Ritz and Galerkin Method |

Link | Mechanical Vibrations | Lecture 34 - Finite Element Formulation for Rods, Gear Train and Branched System |

Link | Mechanical Vibrations | Lecture 35 - Finite Element Formulation for Beams: Galerkin |

Link | Mechanical Vibrations | Lecture 36 - Global Finite Element Assembly and Imposition of Boundary Conditions |

Link | Mechanical Vibrations | Lecture 37 - Vibration Testing Equipments: Signal Measurements |

Link | Mechanical Vibrations | Lecture 38 - Vibration Testing Equipments: Signal Analysis |

Link | Mechanical Vibrations | Lecture 39 - Field Balancing of Rotors |

Link | Mechanical Vibrations | Lecture 40 - Condition Monitoring |

Link | NOC:Advanced Machining Processes | Lecture 1 - Introduction to advanced machining processes |

Link | NOC:Advanced Machining Processes | Lecture 2 - Ultrasonic machining - Part I |

Link | NOC:Advanced Machining Processes | Lecture 3 - Ultrasonic machining - Part II |

Link | NOC:Advanced Machining Processes | Lecture 4 - Abrasive jet machining |

Link | NOC:Advanced Machining Processes | Lecture 5 - Water jet cutting and Abrasive water jet machining |

Link | NOC:Advanced Machining Processes | Lecture 6 - Magnetic abrasive finishing |

Link | NOC:Advanced Machining Processes | Lecture 7 - Abrasive Flow Finishing |

Link | NOC:Advanced Machining Processes | Lecture 8 - Magnetorheological Finishing |

Link | NOC:Advanced Machining Processes | Lecture 9 - Magnetorheological Abrasive Flow Finishing - Part I |

Link | NOC:Advanced Machining Processes | Lecture 10 - Magnetorheological Abrasive Flow Finishing - Part II |

Link | NOC:Advanced Machining Processes | Lecture 11 - Magnetorheological Abrasive Flow Finishing - Part III |

Link | NOC:Advanced Machining Processes | Lecture 12 - Electric discharge machining (EDM) |

Link | NOC:Advanced Machining Processes | Lecture 13 - Electric Discharge Grinding, Electric Discharge Diamond Grinding and Wire Electric Discharge Machining |

Link | NOC:Advanced Machining Processes | Lecture 14 - Electrochemical Machining (ECM) |

Link | NOC:Advanced Machining Processes | Lecture 15 - Electrochemical Grinding, Electrostream Drilling, Shaped Tube Electrolytic Machining |

Link | NOC:Advanced Machining Processes | Lecture 16 - Plasma Arc Machining (PAM) |

Link | NOC:Advanced Machining Processes | Lecture 17 - Electron Beam Machining (EBM) Edit Lesson |

Link | NOC:Advanced Machining Processes | Lecture 18 - Laser Beam Machining (LBM) |

Link | NOC:Advanced Machining Processes | Lecture 19 - Chemical Machining (ChM) |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 1 - Introduction of nuclear energy |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 2 - Binding energy and mass defect |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 3 - Radioactivity and radioactive decay |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 4 - Different types of nuclear transmutation |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 5 - Artificial radioactivity and neutron-nucleus interactions |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 6 - Energy and momentum conservation |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 7 - Fission and role of neutron energy |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 8 - Theory of elastic scattering |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 9 - Neutron multiplication factor |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 10 - Neutron diffusion theory |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 11 - Solution of one-group diffusion equation |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 12 - Simple reactor theory |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 13 - Nuclear fuel and simple energy consideration |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 14 - Axial temperature distribution and heat transfer coefficient |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 15 - Prompt and delayed neutrons |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 16 - Delayed neutron kinetics |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 17 - Different control mechanisms and various effects |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 18 - Classical reactor designs |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 19 - Evolution of reactors from Gen-I to Gen-IV |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 20 - The concept of breeding |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 21 - Fuel cycles and FBR |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 22 - Gen-IV FBR designs |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 23 - Hydrogen fusion reactions |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 24 - Coulomb barrier and other critical factors |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 25 - Radiation dose and gross biological effects |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 26 - Stochastic and deterministic effects of human cells |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 27 - Lessons from TMI and Chernobyl |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 28 - Defence-in-depth Philosophy |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 29 - Waste classification and Disposal of Mill Tailings |

Link | NOC:Fundamentals of Nuclear Power Generation | Lecture 30 - Disposal methodologies for HLW and IMW |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 1 - Fundamentals of Welding and Joining - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 2 - Fundamentals of Welding and Joining - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 3 - Fundamentals of Welding and Joining - Part III |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 4 - Fundamentals of Welding and Joining - Part IV |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 5 - Fundamentals of Welding and Joining - Part V |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 6 - Laser and Electron Beam Welding - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 7 - Laser and Electron Beam Welding - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 8 - Solid State Welding Processes - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 9 - Solid State Welding Processes - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 10 - Solid State Welding Processes - Part III |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 11 - Computational Welding Mechanics - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 12 - Computational Welding Mechanics - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 13 - Computational Welding Mechanics - Part III |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 14 - Micro and Nano Joining Processes - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 15 - Micro and Nano Joining Processes - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 16 - Micro and Nano Joining Processes - Part III |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 17 - Welding Metallurgy - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 18 - Welding Metallurgy - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 19 - Welding Metallurgy - Part III |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 20 - Welding Metallurgy - Part IV |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 21 - Welding and Joining of Non-Metals - Part I |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 22 - Welding and Joining of Non-Metals - Part II |

Link | NOC:Advances in Welding and Joining Technologies | Lecture 23 - Metal Transfer in Welding and Metal Printing |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 1 - Introduction |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 2 - Introduction and Importance of Machining |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 3 - Principles of Machining or Metal Cutting |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 4 - Cutting Tools |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 5 - Forces in Machining |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 6 - Tribology in Machining |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 7 - Lubrication surface roughness in Machining |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 8 - Machinability and Thermal Aspects |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 9 - Tool Wear and Tool life - Part 1 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 10 - Tool Wear and Tool life - Part 2 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 11 - Tool Wear and Tool life - Part 3 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 12 - Tool Materials and Coatings |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 13 - Machining Fluids / Cutting Fluids and its Additives - Part 1 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 14 - Machining Fluids / Cutting Fluids and its Additives - Part 2 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 15 - Machining Fluids / Cutting Fluids and its Emissions |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 16 - Eco Friendly Cutting Fluids - Part 1 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 17 - Eco Friendly Cutting Fluids - Part 2 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 18 - Rheology and Thermal Characterization of Machining / Cutting Fluids |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 19 - Bio-degradation Studies of Machining / Cutting Fluids |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 20 - Cutting Fluid Application in Machining Region |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 21 - Practical Machining Processes - 1 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 22 - Practical Machining Processes - 2 |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 23 - Introduction to Abrasive Processes - Grinding |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 24 - Cutting fluids in Grinding Process |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 25 - Unbonded Conventional Abrasive Processes |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 26 - Advances in Metal Cutting_Machining Processes |

Link | NOC:Introduction to Machining and Machining Fluids | Lecture 27 - Advances in Metal Cutting_Machining Processes - 2 |

Link | NOC:Mechanics of Machining | Lecture 1 - Deformation of Metals |

Link | NOC:Mechanics of Machining | Lecture 2 - Mechanism of Plastic Deformation |

Link | NOC:Mechanics of Machining | Lecture 3 - Machining Processes: Single Edge Tool, Types of Chips |

Link | NOC:Mechanics of Machining | Lecture 4 - Tool Geometry: Single Point Cutting Tool Specifications |

Link | NOC:Mechanics of Machining | Lecture 5 - Tool Specifications, Conversion Of Tool Angles, Multi-Point Cutting Tools |

Link | NOC:Mechanics of Machining | Lecture 6 - Mechanics of Orthogonal Cutting, Force Relationships |

Link | NOC:Mechanics of Machining | Lecture 7 - Determination of Stress, Strain, and Strain Rate |

Link | NOC:Mechanics of Machining | Lecture 8 - Measurement of Shear Angle |

Link | NOC:Mechanics of Machining | Lecture 9 - Other Analysis for Force Relationships |

Link | NOC:Mechanics of Machining | Lecture 10 - Mechanics of Oblique Cutting |

Link | NOC:Mechanics of Machining | Lecture 11 - Measurement of Cutting Forces |

Link | NOC:Mechanics of Machining | Lecture 12 - Thermal Aspects Of Machining: Temperatures in Orthogonal Cutting |

Link | NOC:Mechanics of Machining | Lecture 13 - Tool Wear and Tool Life and Tool Life Equations |

Link | NOC:Mechanics of Machining | Lecture 14 - Economics in Machining |

Link | NOC:Mechanics of Machining | Lecture 15 - Practical Machining Operations: Turning And Shaping and Planning Operation |

Link | NOC:Mechanics of Machining | Lecture 16 - Practical Machining Operations: Milling And Drilling |

Link | NOC:Mechanics of Machining | Lecture 17 - Grinding of Metals and Mechanics of Grinding Process |

Link | NOC:Mechanics of Machining | Lecture 18 - Abrasive Machining and Finishing Operations |

Link | NOC:Mechanics of Machining | Lecture 19 - CNC Machines and CNC Programming |

Link | NOC:Mechanics of Machining | Lecture 20 - Introduction to Advanced Machining Processes |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 1 - Introduction to hydraulic machines: classifications and operational principles |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 2 - Euler equation for turbomachines: net head developed by the pump/turbines |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 3 - Velocity triangles of pumps, effect of inlet swirl on pump operation |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 4 - Velocity triangles of pumps, effect of inlet swirl on pump operation |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 5 - Pump casings, Efficiencies and Problems - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 6 - Pump casings, Efficiencies and Problems - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 7 - Pump casings, Efficiencies and Problems - III |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 8 - Axial flow pump, HQ curve, System Resistance Curve - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 9 - Axial flow pump, HQ curve, System Resistance Curve - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 10 - HQ Curve, System Resistance Curve - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 11 - HQ Curve, System Resistance Curve - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 12 - Introduction to Cavitation |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 13 - Condition for Cavitation and NPSH |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 14 - Net Positive Suction Head (NPSH) |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 15 - Suction number and Introduction to off design condition |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 16 - Cavitation: The effect of off-design Conditions |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 17 - Cavitation: Preventive Measures |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 18 - Cavitation: Preventive Measures, Effect on Pump Characteristic |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 19 - Problems on Cavitation |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 20 - Introduction to Slip : Stodola Slip Model |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 21 - Departure from Euler theory |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 22 - Slip Velocity - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 23 - Slip Velocity - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 24 - Problem on slip |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 25 - Degree of reaction of pump |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 26 - Degree of reaction and axial pump design |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 27 - Testing of radial flow pump - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 28 - Testing of radial flow pump - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 29 - Problem on radial flow pump testing |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 30 - Radial equilibrium of axial flow pump - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 31 - Radial equilibrium of axial flow pump - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 32 - Pump operation: series and parallel connection |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 33 - Series and parallel operation of dissimilar pumps |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 34 - Pumping system design |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 35 - Design of parellel pumping system |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 36 - Numerical problem on pumps - I |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 37 - Numerical problem on pumps - II |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 38 - Numerical problem on pumps - III |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 39 - Working principle and Indicator diagram of PD pump |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 40 - Working principle and Indicator diagram of PD pump (Continued...) |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 41 - Modified indicator diagram and Head-Discharge curve |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 42 - Analysis and Head-Discharge curve of PD pump |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 43 - Analysis and efficiencies of PD pump |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 44 - Requirement of air chamber in PD pump |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 45 - Numerical problem on PD pump with air chamber |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 46 - Similarity and dimensional analysis of hydraulic machines |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 47 - Dimensional analysis of hydraulic machines: Buckingham's theorem |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 48 - Buckingham's theorem: Specific speed of hydraulic machines |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 49 - Turbine Classification and Operational principle of Pelton wheel |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 50 - Velocity Tiangles and analysis |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 51 - Operational Principle of Reaction turbine |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 52 - Degree of Reaction and Introduction to axial flow turbine |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 53 - Kaplan Turbine: Operational Principle, Turbine efficiencies |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 54 - Draft Tube for Reaction Turbine and Cavitation |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 55 - Energy Balance and NPSH |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 56 - Thoma Cavitation Factor |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 57 - Reaction Turbine: Design aspects and Characteristic Curves |

Link | NOC:Principle of Hydraulic Machines and System Design | Lecture 58 - Problems on Impulse and Reaction Turbines |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 1 - Introduction to Abrasive Machining and Finishing Processes |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 2 - Grinding Process |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 3 - Grinding Fluids and Its Additives |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 4 - Grinding Fluids and its Emissions |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 5 - Sustainable Grinding Process: Biodegradation of Grinding Fluids |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 6 - Sustainable Grinding Process: MQL in Grinding Process |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 7 - Honing Process |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 8 - Lapping Process |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 9 - Super Finishing and Sand Blasting |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 10 - Vibratory Bowl Finishing,Rotary Barrel Finishing or Tumbling |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 11 - Drag Finishing, Ice-bonded Abrasive Finishing, Pitch Polishing, Pad Polishing |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 12 - Introduction to Surface Texture in abrasive Process |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 13 - Representation of Surface Roughness |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 14 - Abrasive Jet Machining (AJM) |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 15 - Abrasive Water Jet Machining (AWJM) |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 16 - Ultrasonic Machining (USM) |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 17 - EDM, Wire-EDM, EDG, EDDG, AW-EDG |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 18 - Elastic Emission Machining |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 19 - PMEDM and ECD and ELID, ECH |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 20 - Abrasive Flow Finishing: Part 1 |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 21 - Abrasive Flow Finishing: Part 2 |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 22 - Magnetic Field Assisted Abrasive Finishing: MAF, MADe, MFP |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 23 - Magneto Rheological Finishing and BE-MRF |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 24 - Magnetic Field Assisted Abrasive Finishing:CNP,CMMRF,MRAFF,R-MRAFF |

Link | NOC:Introduction to Abrasive Machining and Finishing Processes | Lecture 25 - Summary of the Course |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 1 - Basic of Solid Mechanics |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 2 - Enegry Principles |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 3 - Classification of Plate Theories and Some Basics |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 4 - Tutorial: Transformation of Tensors |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 5 - Governing Equation for Plate - 1 |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 6 - Governing Equation for Plate - 2 |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 7 - Tutorial: Reduced Stiffness and Plate Stiffness |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 8 - Navier Solution + Levy solution |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 9 - Levy Solution |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 10 - Tutorial: Load Matrices Calculation |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 11 - EKM and buckling of plates |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 12 - 3D Solutions |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 13 - Matlab Coding + ABAQUS |

Link | NOC:Theory of Rectangular Plates - Part 1 | Lecture 14 - Tutorial: Levy Solutions |

Link | NOC:Principles of Mechanical Measurement | Lecture 1 - Introduction to measurement |

Link | NOC:Principles of Mechanical Measurement | Lecture 2 - Generalized measurement system and static characteristics |

Link | NOC:Principles of Mechanical Measurement | Lecture 3 - Uncertainties in measurement |

Link | NOC:Principles of Mechanical Measurement | Lecture 4 - Statistical treatment of random errors |

Link | NOC:Principles of Mechanical Measurement | Lecture 5 - System response to periodic inputs |

Link | NOC:Principles of Mechanical Measurement | Lecture 6 - Zeroth and first order systems |

Link | NOC:Principles of Mechanical Measurement | Lecture 7 - First and second order systems |

Link | NOC:Principles of Mechanical Measurement | Lecture 8 - Basics of digitization and number systems |

Link | NOC:Principles of Mechanical Measurement | Lecture 9 - Binary logic gates and binary codes |

Link | NOC:Principles of Mechanical Measurement | Lecture 10 - Analog-to-digital conversion |

Link | NOC:Principles of Mechanical Measurement | Lecture 11 - Digital-to-analog conversion |

Link | NOC:Principles of Mechanical Measurement | Lecture 12 - Electromagnetic indicators |

Link | NOC:Principles of Mechanical Measurement | Lecture 13 - Electronic amplifiers and filters |

Link | NOC:Principles of Mechanical Measurement | Lecture 14 - Resistive devices |

Link | NOC:Principles of Mechanical Measurement | Lecture 15 - Inductive, capacitive and optical devices |

Link | NOC:Principles of Mechanical Measurement | Lecture 16 - Piezoelectric and nozzle-flapper transducers |

Link | NOC:Principles of Mechanical Measurement | Lecture 17 - Resistive strain gages and associated circuitry |

Link | NOC:Principles of Mechanical Measurement | Lecture 18 - Strain gage rosettes and gage orientation |

Link | NOC:Principles of Mechanical Measurement | Lecture 19 - Elastic and strain gage load cells |

Link | NOC:Principles of Mechanical Measurement | Lecture 20 - Various load cells and dynamometers |

Link | NOC:Principles of Mechanical Measurement | Lecture 21 - Principles of manometry |

Link | NOC:Principles of Mechanical Measurement | Lecture 22 - Piezometer and elastic pressure transducer |

Link | NOC:Principles of Mechanical Measurement | Lecture 23 - Electric pressure transducer and high and low pressure measurement |

Link | NOC:Principles of Mechanical Measurement | Lecture 24 - Bernoulli's equation in obstruction meters |

Link | NOC:Principles of Mechanical Measurement | Lecture 25 - Obstruction meters and volume flowmeters |

Link | NOC:Principles of Mechanical Measurement | Lecture 26 - Mass flowmeters and velocity probes |

Link | NOC:Principles of Mechanical Measurement | Lecture 27 - Expansion-based devices |

Link | NOC:Principles of Mechanical Measurement | Lecture 28 - RTD, Thermistor and Thermocouple |

Link | NOC:Principles of Mechanical Measurement | Lecture 29 - Introduction to pyrometers |

Link | NOC:Principles of Mechanical Measurement | Lecture 30 - Basic seismic transducer |

Link | NOC:Principles of Mechanical Measurement | Lecture 31 - Vibro-, velo- and accelerometer |

Link | NOC:Principles of Mechanical Measurement | Lecture 32 - Introduction to acoustic measurement |

Link | NOC:Principles of Mechanical Measurement | Lecture 33 - Radioactivity and its biological effects |

Link | NOC:IC Engines and Gas Turbines | Lecture 1 - External and Internal combustion engines, Engine components, SI and CI engines |

Link | NOC:IC Engines and Gas Turbines | Lecture 2 - Four-stroke and Two-stroke engines, Comparison between SI and CI engines, and Four-stroke and Two-stroke engines |

Link | NOC:IC Engines and Gas Turbines | Lecture 3 - Classification of IC engines |

Link | NOC:IC Engines and Gas Turbines | Lecture 4 - Engine operating characteristics |

Link | NOC:IC Engines and Gas Turbines | Lecture 5 - Otto, Diesel and Dual cycles |

Link | NOC:IC Engines and Gas Turbines | Lecture 6 - Otto, Diesel and Dual cycles (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 7 - Otto, Diesel and Dual cycles (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 8 - Otto, Diesel and Dual cycles (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 9 - Comparison between the cycles, Actual cycles and their analysis |

Link | NOC:IC Engines and Gas Turbines | Lecture 10 - Carburetor, Mixture requirements |

Link | NOC:IC Engines and Gas Turbines | Lecture 11 - Carburetor, Mixture requirements (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 12 - Idling, cruising and power ranges |

Link | NOC:IC Engines and Gas Turbines | Lecture 13 - Idling, cruising and power ranges (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 14 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems |

Link | NOC:IC Engines and Gas Turbines | Lecture 15 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 16 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 17 - Engine friction, Lubrication systems, forces on piston |

Link | NOC:IC Engines and Gas Turbines | Lecture 18 - Lubricating oils, Thermochemistry and Fuels, Self-ignition |

Link | NOC:IC Engines and Gas Turbines | Lecture 19 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas |

Link | NOC:IC Engines and Gas Turbines | Lecture 20 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 21 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram |

Link | NOC:IC Engines and Gas Turbines | Lecture 22 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 23 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 24 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers |

Link | NOC:IC Engines and Gas Turbines | Lecture 25 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 26 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends |

Link | NOC:IC Engines and Gas Turbines | Lecture 27 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 28 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...) |

Link | NOC:IC Engines and Gas Turbines | Lecture 29 - Problems on IC engine |

Link | NOC:IC Engines and Gas Turbines | Lecture 30 - Turbomachines, Gas Turbine theory |

Link | NOC:IC Engines and Gas Turbines | Lecture 31 - Open Cycle Gas Turbine Power Plant, Twin Shaft Arrangement |

Link | NOC:IC Engines and Gas Turbines | Lecture 32 - Closed Cycle, Multi-Spool Arrangement, Steam Power Plant |

Link | NOC:IC Engines and Gas Turbines | Lecture 33 - Basic Thermodynamics |

Link | NOC:IC Engines and Gas Turbines | Lecture 34 - Brayton Cycle: Introducton and General Relationships |

Link | NOC:IC Engines and Gas Turbines | Lecture 35 - Brayton Cycle: Efficiency, Work Ratio and Optimum Work Output Condition |

Link | NOC:IC Engines and Gas Turbines | Lecture 36 - Brayton Cycle with Heat Exchanger/Reheater |

Link | NOC:IC Engines and Gas Turbines | Lecture 37 - Brayton Cycle with Intercooler |

Link | NOC:IC Engines and Gas Turbines | Lecture 38 - Real Brayton Cycle, Solved Example for Ideal Cycle |

Link | NOC:IC Engines and Gas Turbines | Lecture 39 - Solved Examples for Real Brayton Cycle |

Link | NOC:IC Engines and Gas Turbines | Lecture 40 - Introduction and Performance Parameters of Propulsion System |

Link | NOC:IC Engines and Gas Turbines | Lecture 41 - Basics of Various Aircraft Engine |

Link | NOC:IC Engines and Gas Turbines | Lecture 42 - Eular Turbomachinary Equation |

Link | NOC:IC Engines and Gas Turbines | Lecture 43 - Introduction and Flow Analysis of Centrifugal Compressors |

Link | NOC:IC Engines and Gas Turbines | Lecture 44 - Thermodynamics Analysis of Centrifugal Compressors |

Link | NOC:IC Engines and Gas Turbines | Lecture 45 - Axial Compressor: Basics, Velocity triangles, T-S diagram and Work Intraction |

Link | NOC:IC Engines and Gas Turbines | Lecture 46 - Axial Compressor: Different factors, Degree of Reaction and Free Vortex Condition |

Link | NOC:IC Engines and Gas Turbines | Lecture 47 - Complete Analysis of Axial Flow Gas Turbine |

Link | NOC:IC Engines and Gas Turbines | Lecture 48 - Solved Examples for Axial Compressors,Centrifugal Compressors and Turbine |

Link | NOC:IC Engines and Gas Turbines | Lecture 49 - Radial Flow Turbine, Solved Example of Free vortex Condition |

Link | NOC:IC Engines and Gas Turbines | Lecture 50 - Nozzles and Diffuers: Introduction, Intake efficiency,Nozzle efficiency |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 1 - Introduction of welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 2 - Classification of welding and joints |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 3 - Parts of weld joint |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 4 - Welding Symbol |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 5 - welding power source - 1 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 6 - Welding power source - 2 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 7 - Welding Power sources characteristics - 1 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 8 - Welding Power sources characteristics - 2 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 9 - Physics of welding - 1 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 10 - Physics of welding - 2 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 11 - Physics of welding - 4 (Arc Stability and Arc Blow) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 12 - Physics of welding - 3 |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 13 - Physics of welding - 5 (Metal Transfer-1) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 14 - Physics of welding - 6 (Metal Transfer-2) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 15 - Physics of welding - 7 (Metal Transfer-3) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 16 - Physics of welding - 8 (Metal Transfer-4) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 17 - Physics of welding - 9 (Metal Transfer-5) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 18 - Physics of welding - 10 (Metalting Efficiency) |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 19 - Oxy-Fuel Gas Welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 20 - Shielded Metal Arc Welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 21 - Gas Tungsten Arc Welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 22 - Gas Metal Arc Welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 23 - Submerged Arc Welding |

Link | NOC:Fundamental of Welding Science and Technology | Lecture 24 - Welding Defects and Inspection |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 1 - Introduction to Polymer Assisted Abrasive Finishing Processes |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 2 - Surface Integrity and Surface roughness representation - Part I |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 3 - Surface Integrity and Surface roughness representation - Part II |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 4 - Introduction to Grinding and Polymer assisted Grinding Wheels |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 5 - Polymer medium for vibratory bowl finishing, Tumbling, Drag finishing |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 6 - Polymer Pad and Chemo-mechanical Polishing |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 7 - Elastic Emission Machining |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 8 - Hydrodynamic Polishing, Elasto Abrasive Finishing |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 9 - Abrasive Flow Machining and Finishing - Part I |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 10 - Abrasive Flow Machining and Finishing - Part II |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 11 - Advances in Abrasive Flow Finishing: DBGAFF, CFAAFM |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 12 - Advances in Abrasive Flow Finishing: Spiral Polishing, R-AFF |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 13 - AFF Processes: Magnetio AFF (MRAFF), UAA-AFF, EC-AFF |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 14 - Finishing of Biomedical implants (Micro AFF: Micro holes, Micro slots, Bio Implants: Knee implants , Hip implants and Applications of one way, two way and orbital AFF) |

Link | NOC:Polymer Assisted Abrasive Finishing Processes | Lecture 15 - Summary of the Course |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 1 - Materials and manufacturing Processes - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 2 - Materials and manufacturing Processes - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 3 - Physics based modeling approach at different scale |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 4 - Evaluation of properties and process modelling |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 5 - Thermofluid and electromagnetic analysis |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 6 - Solid-state deformation and residual stress - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 7 - Solid-state deformation and residual stress - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 8 - Meltiing, solidification and additive manufacturing |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 9 - Force and velocity diagram - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 10 - Force and velocity diagram - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 11 - Heat transfer analysis |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 12 - Principal and mechanism at different processes - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 13 - Principal and mechanism at different processes - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 14 - Mechanics of bulk metal forming |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 15 - Mechanics of sheet metal forming - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 16 - Mechanics of sheet metal forming - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 17 - Heat transfer and thermomechanical processing |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 18 - Fusion welding processes - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 19 - Fusion welding processes - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 20 - Physics of welding and metal transfer |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 21 - Heat source model in fusion welding |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 22 - Heat transfer and material flow |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 23 - Solidification in welding - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 24 - Solidification in welding - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 25 - Solid state welding - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 26 - Solid state welding - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 27 - Hybrid welding, residual stress and distortion |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 28 - Cooling and solidification at different casting processes |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 29 - Powder metallurgy |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 30 - Principle of surface and coating technologies |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 31 - Principle and development of additive manufacturing technologies - 1 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 32 - Principle and development of additive manufacturing technologies - 2 |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 33 - Fundamentals of heat treatment |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 34 - Evaluation of microstructural properties and residual stress |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 35 - Down-scaling of conventional manufacturing processes and Micro-to-nano manufacturing |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 36 - Packaging, micro-finishing and micro-manufacturing processes |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 37 - Processing and shaping of non-metals and bio-materials |

Link | NOC:Mathematical Modeling of Manufacturing Processes | Lecture 38 - Principle of glass and ceramics processing and their shaping |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 1 - Introduction and Notation |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 2 - Flow Regimes and Flow Regime Maps |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 3 - The Homogeneous Model |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 4 - The Separated Flow Model |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 5 - The Separated Flow Model (Continued...) |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 6 - The Drift Flux Model |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 7 - Estimation of pressure drop in two phase flow |

Link | NOC:Two-Phase flow with phase change in Conventional and Miniature Channels | Lecture 8 - Two phase flow and pressure drop in miniature channels |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 1 - Overview of thermodynamic system and state |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 2 - First and second laws of thermodynamics |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 3 - Concept of entropy and entropy generation |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 4 - Concept of exergy and exergy destruction |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 5 - Thermodynamic potentials and Maxwell relations |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 6 - Generalized relations for entropy and specific heats |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 7 - Joule-Thomson coefficient and Clapeyron equation |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 8 - Liquid-vapor phase-change process |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 9 - Use of property tables |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 10 - Equations-of-state and Compressibility factor |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 11 - Ideal cycles for reciprocating engines |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 12 - Otto, Diesel and Dual combustion cycles |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 13 - Stirling and Ericsson cycles |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 14 - Fuel-air cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 15 - Numerical exercise on Fuel-air cycles |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 16 - Losses in actual cycle and valve-timing diagram |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 17 - Ideal Brayton cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 18 - Intercooling and reheating in Brayton cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 19 - Regeneration in Brayton cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 20 - Ideal Rankine cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 21 - Improvements and modifications in Rankine cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 22 - Regenerative Rankine cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 23 - Binary vapor power cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 24 - Combined gas-steam power plant |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 25 - Different arrangments in combined cycles |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 26 - Vapor compression refrigeration cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 27 - SSS cycles and refrigerants |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 28 - Modifications in VCR systems |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 29 - Vapor absorption refrigeration cycle |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 30 - P-v-T behavior of gas mixtures |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 31 - Numerical examples |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 32 - Properties of moist air |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 33 - Psychrometric chart and various psychrometric processes |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 34 - Sensible heat factor and bypass factor |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 35 - Theoretical and actual combustion process |

Link | NOC:Applied Thermodynamics for Engineers | Lecture 36 - Thermodynamic analyses of reacting systems |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 1 - Relationship of Thermodynamics with Heat transfer |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 2 - Modes of heat transfer |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 3 - Fourier's law and thermal conductivity |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 4 - Generalized heat diffusion equation |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 5 - Heat diffusion equation in curvilinear coordinates |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 6 - Concept of thermal resistance |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 7 - Use of network of resistances in wall and cylinder |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 8 - Critical thickness of insulation |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 9 - Conduction with energy generation - I |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 10 - Conduction with energy generation - II |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 11 - General Heat Transfer Analysis |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 12 - Fins with uniform cross-section area - I |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 13 - Fins with uniform cross-section area - II |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 14 - Fins with non-uniform cross-section area |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 15 - Method of Separation of Variables |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 16 - Graphical approach |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 17 - Method of Superposition |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 18 - Lumped capacitance approach - I |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 19 - Lumped capacitance approach - II |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 20 - Semi-infinite Solid |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 21 - Steady Heat Conduction |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 22 - Unsteady Heat Conduction |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 23 - Problem solving using Energy Balance Method |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 24 - Introduction to radiative heat fluxes |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 25 - Spectral and directional definitions |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 26 - Blackbody radiation |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 27 - Emissivity |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 28 - Irradiation of real surfaces |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 29 - View factor |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 30 - Blackbody radiation exchange |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 31 - Radiation networks |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 32 - Gas radiation |

Link | NOC:Fundamentals of Conduction and Radiation | Lecture 33 - Radiative Transfer Equation |

Link | NOC:Steam Power Engineering | Lecture 1 - Review of thermodynamics |

Link | NOC:Steam Power Engineering | Lecture 2 - Rankine cycle |

Link | NOC:Steam Power Engineering | Lecture 3 - Performance estimation of steam power cycles |

Link | NOC:Steam Power Engineering | Lecture 4 - Carnot cycle examples |

Link | NOC:Steam Power Engineering | Lecture 5 - Rankine cycle with superheat |

Link | NOC:Steam Power Engineering | Lecture 6 - Rankine cycle with reheat theory and example |

Link | NOC:Steam Power Engineering | Lecture 7 - Examples of Rankine cycle |

Link | NOC:Steam Power Engineering | Lecture 8 - Examples of reheat Rankine cycle |

Link | NOC:Steam Power Engineering | Lecture 9 - Rankine cycle with regeneration |

Link | NOC:Steam Power Engineering | Lecture 10 - Feedwater heaters |

Link | NOC:Steam Power Engineering | Lecture 11 - Cogeneration of power and process heat |

Link | NOC:Steam Power Engineering | Lecture 12 - Examples of regeneration |

Link | NOC:Steam Power Engineering | Lecture 13 - Examples of regenerative Rankine cycle |

Link | NOC:Steam Power Engineering | Lecture 14 - Binary/multi-fluid cycles |

Link | NOC:Steam Power Engineering | Lecture 15 - Low temperature power cycles |

Link | NOC:Steam Power Engineering | Lecture 16 - Examples of binary cycles |

Link | NOC:Steam Power Engineering | Lecture 17 - Types of boilers |

Link | NOC:Steam Power Engineering | Lecture 18 - Boiler accessories |

Link | NOC:Steam Power Engineering | Lecture 19 - Practice examples |

Link | NOC:Steam Power Engineering | Lecture 20 - Stagnation conditions and Nozzle flow |

Link | NOC:Steam Power Engineering | Lecture 21 - Nozzle flow |

Link | NOC:Steam Power Engineering | Lecture 22 - Examples of Nozzle |

Link | NOC:Steam Power Engineering | Lecture 23 - Impulse Turbine - 1 |

Link | NOC:Steam Power Engineering | Lecture 24 - Impulse Turbine - 2 |

Link | NOC:Steam Power Engineering | Lecture 25 - Examples on Impulse Turbine |

Link | NOC:Steam Power Engineering | Lecture 26 - Reaction Turbine |

Link | NOC:Steam Power Engineering | Lecture 27 - Reheat Factor |

Link | NOC:Steam Power Engineering | Lecture 28 - Examples on Turbine - 1 |

Link | NOC:Steam Power Engineering | Lecture 29 - Examples on Turbine - 2 |

Link | NOC:Steam Power Engineering | Lecture 30 - Gas Mixture |

Link | NOC:Steam Power Engineering | Lecture 31 - Psychrometry - 1 |

Link | NOC:Steam Power Engineering | Lecture 32 - Psychrometry - 2 |

Link | NOC:Steam Power Engineering | Lecture 33 - Condensers |

Link | NOC:Dynamic Behaviour of Materials | Lecture 1 - Introduction to Dynamic Behaviour of Materials - I |

Link | NOC:Dynamic Behaviour of Materials | Lecture 2 - Introduction to Dynamic Behaviour of Materials - II |

Link | NOC:Dynamic Behaviour of Materials | Lecture 3 - Introduction to Waves |

Link | NOC:Dynamic Behaviour of Materials | Lecture 4 - Quasi-static vs Dynamic Deformation |

Link | NOC:Dynamic Behaviour of Materials | Lecture 5 - Elastic Wave and its Classification |

Link | NOC:Dynamic Behaviour of Materials | Lecture 6 - Propagation of Elastic Waves in Continuum |

Link | NOC:Dynamic Behaviour of Materials | Lecture 7 - Wave Reflection, Refraction and Interaction |

Link | NOC:Dynamic Behaviour of Materials | Lecture 8 - General Solution of Elastic Wave Equation |

Link | NOC:Dynamic Behaviour of Materials | Lecture 9 - Additional Considerations of Elastic Wave in Cylindrical Bar |

Link | NOC:Dynamic Behaviour of Materials | Lecture 10 - Introduction to Plastic Waves |

Link | NOC:Dynamic Behaviour of Materials | Lecture 11 - Plastic Waves of Uniaxial Stress |

Link | NOC:Dynamic Behaviour of Materials | Lecture 12 - Plastic Waves of Combined Stress |

Link | NOC:Dynamic Behaviour of Materials | Lecture 13 - Taylor's Experiment for Plastic Wave Propagation - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 14 - Taylor's Experiment for Plastic Wave Propagation - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 15 - Taylor's Experiment: Wilkins-Guinan Analysis |

Link | NOC:Dynamic Behaviour of Materials | Lecture 16 - Introduction to Shock Waves - I |

Link | NOC:Dynamic Behaviour of Materials | Lecture 17 - Introduction to Shock Waves - II |

Link | NOC:Dynamic Behaviour of Materials | Lecture 18 - Shock Wave: Rankine Hugonoit Treatment |

Link | NOC:Dynamic Behaviour of Materials | Lecture 19 - Rankine Hugonoit Treatment and Shock Wave under Impact |

Link | NOC:Dynamic Behaviour of Materials | Lecture 20 - Shock Wave under Impact |

Link | NOC:Dynamic Behaviour of Materials | Lecture 21 - Equations of States (Shock Waves) : Experimental Methods |

Link | NOC:Dynamic Behaviour of Materials | Lecture 22 - Equations of States (Shock Waves) : Theoretical Calculations |

Link | NOC:Dynamic Behaviour of Materials | Lecture 23 - Complex Problems of Shock Waves and Temperature Rise under Shock Wave |

Link | NOC:Dynamic Behaviour of Materials | Lecture 24 - Shock Wave Attenuation, Interaction and Reflection - I |

Link | NOC:Dynamic Behaviour of Materials | Lecture 25 - Shock Wave Attenuation, Interaction and Reflection - II |

Link | NOC:Dynamic Behaviour of Materials | Lecture 26 - Shock Wave Interaction and Reflection |

Link | NOC:Dynamic Behaviour of Materials | Lecture 27 - Fundamentals of Materials Science and Engineering |

Link | NOC:Dynamic Behaviour of Materials | Lecture 28 - Shock Wave Induced Phase Transformations - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 29 - Shock Wave Induced Phase Transformations - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 30 - Shock Wave Induced Phase Transformations - 3 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 31 - Shock Wave Induced Phase Transformations - 4 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 32 - Experimental Techniques for Dynamic Deformation - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 33 - Experimental Techniques for Dynamic Deformation - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 34 - Plastic Deformation at High Strain Rates - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 35 - Plastic Deformation at High Strain Rates - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 36 - Plastic Deformation at High Strain Rates - 3 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 37 - Plastic Deformation at High Strain Rates - 4 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 38 - Plastic Deformation at High Strain Rates - 5 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 39 - Plastic Deformation Under Shock Waves - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 40 - Plastic Deformation Under Shock Waves - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 41 - Plastic Deformation Under Shock Waves - 3 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 42 - Shear Band - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 43 - Shear Band - 2 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 44 - Dynamic Fracture - 1 |

Link | NOC:Dynamic Behaviour of Materials | Lecture 45 - Dynamic Fracture - 2 |

Link | NOC:Plastic Working of Metallic Materials | Lecture 1 - Introduction to Plastic Working of Metals |

Link | NOC:Plastic Working of Metallic Materials | Lecture 2 - Uniaxial Tension Test Analysis |

Link | NOC:Plastic Working of Metallic Materials | Lecture 3 - Temperature effects in metal forming |

Link | NOC:Plastic Working of Metallic Materials | Lecture 4 - Friction and Lubrication |

Link | NOC:Plastic Working of Metallic Materials | Lecture 5 - Friction and Lubrication (Continued...) |

Link | NOC:Plastic Working of Metallic Materials | Lecture 6 - Deformation zone + worked examples |

Link | NOC:Plastic Working of Metallic Materials | Lecture 7 - Stresses at point and Theory of Plasticity |

Link | NOC:Plastic Working of Metallic Materials | Lecture 8 - Slab Analysis |

Link | NOC:Plastic Working of Metallic Materials | Lecture 9 - Slip Line Field Theory - Part 1 |

Link | NOC:Plastic Working of Metallic Materials | Lecture 10 - Slip Line Field Theory - Part 2 |

Link | NOC:Plastic Working of Metallic Materials | Lecture 11 - Upper Bound Theorem |

Link | NOC:Plastic Working of Metallic Materials | Lecture 12 - Plasticity equations |

Link | NOC:Plastic Working of Metallic Materials | Lecture 13 - Forging |

Link | NOC:Plastic Working of Metallic Materials | Lecture 14 - Analysis of Forging |

Link | NOC:Plastic Working of Metallic Materials | Lecture 15 - Analysis of Forging (Continued...) |

Link | NOC:Plastic Working of Metallic Materials | Lecture 16 - Forging Die Design consideration |

Link | NOC:Plastic Working of Metallic Materials | Lecture 17 - Forging Load |

Link | NOC:Plastic Working of Metallic Materials | Lecture 18 - Rolling of Metals |

Link | NOC:Plastic Working of Metallic Materials | Lecture 19 - Analysis of Rolling |

Link | NOC:Plastic Working of Metallic Materials | Lecture 20 - Analysis of Rolling (Continued...) |

Link | NOC:Plastic Working of Metallic Materials | Lecture 21 - Strain rate in the deformation zone |

Link | NOC:Plastic Working of Metallic Materials | Lecture 22 - Rolling mills |

Link | NOC:Plastic Working of Metallic Materials | Lecture 23 - Prblem on rolling |

Link | NOC:Plastic Working of Metallic Materials | Lecture 24 - Drawing of Rods, Wires and Tubes |

Link | NOC:Plastic Working of Metallic Materials | Lecture 25 - Drawing of Rods, Wires and Tubes (Continued...) |

Link | NOC:Plastic Working of Metallic Materials | Lecture 26 - Analysis of Wire Drawing |

Link | NOC:Plastic Working of Metallic Materials | Lecture 27 - Wire Drawing: Tutorial Problems |

Link | NOC:Plastic Working of Metallic Materials | Lecture 28 - Extrusion Process |

Link | NOC:Plastic Working of Metallic Materials | Lecture 29 - Analysis of Extrusion |

Link | NOC:Plastic Working of Metallic Materials | Lecture 30 - Introduction |

Link | NOC:Plastic Working of Metallic Materials | Lecture 31 - Sheet deformation process |

Link | NOC:Plastic Working of Metallic Materials | Lecture 32 - Deformation of sheet in plane stress |

Link | NOC:Plastic Working of Metallic Materials | Lecture 33 - Analysis of stamping |

Link | NOC:Plastic Working of Metallic Materials | Lecture 34 - Instability in sheet metal forming |

Link | NOC:Plastic Working of Metallic Materials | Lecture 35 - Deep drawing |

Link | NOC:Plastic Working of Metallic Materials | Lecture 36 - Hydroforming |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 1 - Introduction to Artificial Intelligence |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 2 - Problem Solving as State Space Search |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 3 - Uninformed Search |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 4 - Heuristic Search |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 5 - Informed Search |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 6 - Constraint Satisfaction Problems |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 7 - Searching AND/OR Graphs |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 8 - Game Playing |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 9 - Minimax + Alpha-Beta |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 10 - Introduction to Knowledge Representation |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 11 - Propositional Logic |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 12 - First Order Logic - I |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 13 - First Order Logic - II |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 14 - Inference in First Order Logic - I |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 15 - Inference in First Order Logic - II |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 16 - Answer Extraction |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 17 - Procedural Control of Reasoning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 18 - Reasoning under Uncertainty |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 19 - Bayesian Network |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 20 - Decision Network |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 21 - Introduction to Planning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 22 - Plan Space Planning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 23 - Planning Graph and GraphPlan |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 24 - Practical Planning and Acting |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 25 - Sequential Decision Problems |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 26 - Making Complex Decisions |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 27 - Introduction to Machine Learning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 28 - Learning Decision Trees |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 29 - Linear Regression |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 30 - Support Vector Machines |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 31 - Unsupervised Learning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 32 - Reinforcement Learning |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 33 - Learning in Neural Networks |

Link | NOC:Fundamentals of Artificial Intelligence | Lecture 34 - Deep Learning: A Brief Overview |

Link | NOC:Aircraft Propulsion | Lecture 1 - Overview of Basic Thermodynamics |

Link | NOC:Aircraft Propulsion | Lecture 2 - Solved Examples for Flow process |

Link | NOC:Aircraft Propulsion | Lecture 3 - Turbomachines: Introduction, Classification, Types |

Link | NOC:Aircraft Propulsion | Lecture 4 - Components of Gas Turbine Power Plant, Gas Turbine Attachments |

Link | NOC:Aircraft Propulsion | Lecture 5 - Introduction to Various Aircraft engines, Engine Performance parameters |

Link | NOC:Aircraft Propulsion | Lecture 6 - Air Standard Ideal Brayton Cycle |

Link | NOC:Aircraft Propulsion | Lecture 7 - Examples for Ideal Brayton Cycle |

Link | NOC:Aircraft Propulsion | Lecture 8 - Non-Ideal Brayton Cycle |

Link | NOC:Aircraft Propulsion | Lecture 9 - Examples for Non-Ideal Brayton Cycle |

Link | NOC:Aircraft Propulsion | Lecture 10 - Brayton Cycle with Heat Exchanger / Re-heater |

Link | NOC:Aircraft Propulsion | Lecture 11 - Brayton Cycle with Intercooler / All Attachments |

Link | NOC:Aircraft Propulsion | Lecture 12 - Examples of Gas Turbine Attachment |

Link | NOC:Aircraft Propulsion | Lecture 13 - Examples of Gas Turbine Attachment |

Link | NOC:Aircraft Propulsion | Lecture 14 - Stagnation Conditions, Real Brayton Cycle with Stagnation Conditions |

Link | NOC:Aircraft Propulsion | Lecture 15 - Polytropic Efficiency of Compressor and Turbine |

Link | NOC:Aircraft Propulsion | Lecture 16 - Examples of Real Cycle |

Link | NOC:Aircraft Propulsion | Lecture 17 - Nozzle Flow: Isentropic Relations, Area Velocity Relation, Choked Mass Flow Rate |

Link | NOC:Aircraft Propulsion | Lecture 18 - Aircraft Engine Intake, Intake Efficiency |

Link | NOC:Aircraft Propulsion | Lecture 19 - Propelling Nozzle, Nozzle Efficiency |

Link | NOC:Aircraft Propulsion | Lecture 20 - Turbojet engine: Confriguration and Examples |

Link | NOC:Aircraft Propulsion | Lecture 21 - Turbofan engine: Confriguration and Examples |

Link | NOC:Aircraft Propulsion | Lecture 22 - Ramjet engine: Parameters and losses |

Link | NOC:Aircraft Propulsion | Lecture 23 - Examples of Ramjet Engine |

Link | NOC:Aircraft Propulsion | Lecture 24 - Thrust Augmentation and Engine performance parameters for Aircrafts |

Link | NOC:Aircraft Propulsion | Lecture 25 - Introduction to Turbomachinary |

Link | NOC:Aircraft Propulsion | Lecture 26 - Centrifugal Compressor: Velocity diagrams, Workdone |

Link | NOC:Aircraft Propulsion | Lecture 27 - Centrifugal Compressor: Thermodynamic analysis, Stage efficiency and Degree of reaction |

Link | NOC:Aircraft Propulsion | Lecture 28 - Examples of Centrifugal compressor |

Link | NOC:Aircraft Propulsion | Lecture 29 - Axial Flow Compressor: Velocity diagrams, Workdone and Degree of Reaction |

Link | NOC:Aircraft Propulsion | Lecture 30 - Axial Flow Compressor: Free vortex Condition |

Link | NOC:Aircraft Propulsion | Lecture 31 - Examples of Axial Flow Compressor - 1 |

Link | NOC:Aircraft Propulsion | Lecture 32 - Examples of Axial Flow Compressor - 2 |

Link | NOC:Aircraft Propulsion | Lecture 33 - Examples of Axial Flow Compressor - 3 |

Link | NOC:Aircraft Propulsion | Lecture 34 - Axial Turbine: Velocity diagrams, Workdone, and Degree of Reaction |

Link | NOC:Aircraft Propulsion | Lecture 35 - Radial Turbine: Velocity diagrams, h-s diagram, Stage effieciency and degree of reaction |

Link | NOC:Aircraft Propulsion | Lecture 36 - Examples of Axial Turbine |

Link | NOC:Aircraft Propulsion | Lecture 37 - Practice examples of Axial Turbine and cetrifugal compressor |

Link | NOC:Aircraft Propulsion | Lecture 38 - Cascade theory and Blade design |

Link | NOC:Aircraft Propulsion | Lecture 39 - Cascade variables and Turbine Cascade |

Link | NOC:Aircraft Propulsion | Lecture 40 - Velocity diagrams of Turbine Cascade, Compressor cascade |

Link | NOC:Aircraft Propulsion | Lecture 41 - Turbine cooling methods |

Link | NOC:Aircraft Propulsion | Lecture 42 - Practice examples of aircraft engine |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 1 - Applications of CFD |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 2 - Basic equations of fluid dynamics and heat transfer |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 3 - Initial and boundary conditions |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 4 - Physical Classification, System of first-order PDEs |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 5 - System of second-order PDEs |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 6 - Finite difference by Taylor series expansion |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 7 - Finite difference by general approximation and polynomials |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 8 - Finite difference in non-uniform grid |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 9 - Types of error and accuracy of FD solutions |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 10 - Finite difference formulations of Elliptic Equations with boundary condition treatment |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 11 - Iterative Methods |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 12 - Applications |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 13 - Linear Solvers |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 14 - Finite difference formulations of Parabolic Equations |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 15 - Finite difference formulations of Parabolic Equations: Implicit Methods |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 16 - Finite difference formulations of Parabolic Equations: Unsteady Two-Dimensional Equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 17 - Finite difference formulations of Parabolic Equations: Unsteady Three-Dimensional Equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 18 - Finite difference formulations of the first order wave equation: Explicit Method |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 19 - Finite difference formulations of the first order wave equation: Implicit Method |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 20 - Von Neumann stability analysis of different schemes for Parabolic equations |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 21 - Von Neumann stability analysis of different schemes for Parabolic equations |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 22 - Von Neumann stability analysis of different schemes for Hyperbolic equations |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 23 - Modified equation, Artificial viscosity, Numerical diffusion |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 24 - Discretization vorticity-stream function equations using FDM |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 25 - Boundary conditions for flow problems |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 26 - Solutions of vorticity-stream function equations |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 27 - Solution of Navier-Stokes Equation using FDM |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 28 - Solution of Navier-Stokes Equation using FDM (Continued...) |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 29 - Introduction to finite volume method |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 30 - Finite volume discretization of steady diffusion equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 31 - Finite volume discretization of unsteady diffusion equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 32 - Finite volume discretization of steady convection-diffusion equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 33 - Finite volume discretization of unsteady convection-diffusion equation |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 34 - Convection Schemes |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 35 - Solution of Navier-Stokes Equations using FVM - I |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 36 - Solution of Navier-Stokes Equations using FVM - II |

Link | NOC:Computational Fluid Dynamics for Incompressible Flows | Lecture 37 - Boundary Conditions |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 1 - Basic concepts, Calibration |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 2 - Dimensions, Units, Standards, Systems of dimensions, System of units, Unit conversion table |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 3 - Basic concept of dynamic measurements |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 4 - Basic concept of dynamic measurements (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 5 - Basic concept of dynamic measurements (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 6 - System response and distortion, Impedence matching |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 7 - Dimensional measurement Gauge blocks, The pneumatic displacement gauge |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 8 - Dimensional measurement Gauge blocks, The pneumatic displacement gauge |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 9 - Pressure Measurements: Definition of pressure and Dynamic response considerations |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 10 - Mechanical pressure measurement devices, U-tube manometer, The inclined well type manometer |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 11 - The aneroid barometer, Diaphragm and Bellows Gauges |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 12 - The Mcleod gauge, The Pirani gauge, The Ionization gauge |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 13 - The Mcleod gauge, The Pirani gauge, The Ionization gauge (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 14 - The Mcleod gauge, The Pirani gauge, The Ionization gauge (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 15 - Pressure measurement using 3 holes/probes |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 16 - Pressure measurement using 3 holes/probes (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 17 - Flow obstruction flow rate measuerement(venturimeter/orificemeter), the Rotameter |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 18 - Flow obstruction flow rate measuerement(venturimeter/orificemeter), the Rotameter (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 19 - Thermal Anemometry(hot wire/hot film), Hot wire anemometer |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 20 - Thermal Anemometry(hot wire/hot film), Hot wire anemometer (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 21 - Laser Doppler anemometry |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 22 - Measurement of velocity components by 3 holes and 4 holes probes |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 23 - Ideal gas thermometer, Temperature measurement by mechanical and electrical effects |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 24 - Ideal gas thermometer, Temperature measurement by mechanical and electrical effects (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 25 - Thermostatic temperature, Resistance Temperature Detectors (RTD), Thermistors, Thermocouples |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 26 - Temperature measurement by Radiation, The optical pyrometer |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 27 - Transient response of thermal system, Thermocouple compensation, high speed flow |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 28 - Transient response of thermal system, Thermocouple compensation, high speed flow (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 29 - Transient response of thermal system, Thermocouple compensation, high speed flow (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 30 - Constant temperature hot-wire anemometer, LDA |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 31 - Use of PIV |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 32 - Use of PIV (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 33 - Use of PIV (Continued...) |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 34 - Measurement of pitch angle |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 35 - Measurement of torque by dynamometers, straingauge, transducers |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 36 - Measurement of microscale flow features - I |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 37 - Measurement of microscale flow features - II |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 38 - Transient and Frequency response consideration |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 39 - Examples |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 40 - Analysis of experimental data, causes and types of experimental errors |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 41 - Rejection of data: Chauvenets Criterion with example |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 42 - Error propagation: function of two variables, several variables |

Link | NOC:Experimental Methods in Fluid Mechanics | Lecture 43 - The Method of Least square with example |

Link | NOC:Automation in Manufacturing | Lecture 1 - Basic concepts |

Link | NOC:Automation in Manufacturing | Lecture 2 - Mechatronics |

Link | NOC:Automation in Manufacturing | Lecture 3 - Mechatronics based systems |

Link | NOC:Automation in Manufacturing | Lecture 4 - Automated systems and equipment used in manufacturing - Part I |

Link | NOC:Automation in Manufacturing | Lecture 5 - Automated systems and equipment used in manufacturing - Part II |

Link | NOC:Automation in Manufacturing | Lecture 6 - Selection of electrical and electronics components for mechatronics based systems |

Link | NOC:Automation in Manufacturing | Lecture 7 - Terms related to performance of electro-mechanical systems |

Link | NOC:Automation in Manufacturing | Lecture 8 - Computer aided design of components |

Link | NOC:Automation in Manufacturing | Lecture 9 - Fabrication Processes |

Link | NOC:Automation in Manufacturing | Lecture 10 - Measurement system and potentiometer sensors |

Link | NOC:Automation in Manufacturing | Lecture 11 - Displacement, position and proximity sensors - I |

Link | NOC:Automation in Manufacturing | Lecture 12 - Displacement, position and proximity sensors - II |

Link | NOC:Automation in Manufacturing | Lecture 13 - Fluid flow, pressure, and temperature measurement |

Link | NOC:Automation in Manufacturing | Lecture 14 - Signal Conditioning: amplification, filtering |

Link | NOC:Automation in Manufacturing | Lecture 15 - Pulse modulation, Protection devices, and Wheatstone bridge |

Link | NOC:Automation in Manufacturing | Lecture 16 - Signal conversion |

Link | NOC:Automation in Manufacturing | Lecture 17 - Microprocessor Technology |

Link | NOC:Automation in Manufacturing | Lecture 18 - Introduction to Microprocessor Programming |

Link | NOC:Automation in Manufacturing | Lecture 19 - Application of electric drives in automation |

Link | NOC:Automation in Manufacturing | Lecture 20 - DC and AC motors |

Link | NOC:Automation in Manufacturing | Lecture 21 - Stepper motor and servo motor |

Link | NOC:Automation in Manufacturing | Lecture 22 - Types of industrial automation and mechanisms |

Link | NOC:Automation in Manufacturing | Lecture 23 - Ball screw based linear motion drives |

Link | NOC:Automation in Manufacturing | Lecture 24 - Application of cams in automation |

Link | NOC:Automation in Manufacturing | Lecture 25 - Application of indexing mechanisms in automation |

Link | NOC:Automation in Manufacturing | Lecture 26 - Application of tool magazines in automation |

Link | NOC:Automation in Manufacturing | Lecture 27 - Material handling systems |

Link | NOC:Automation in Manufacturing | Lecture 28 - Fundamental concepts |

Link | NOC:Automation in Manufacturing | Lecture 29 - Hydraulic pumps |

Link | NOC:Automation in Manufacturing | Lecture 30 - Direction control valves |

Link | NOC:Automation in Manufacturing | Lecture 31 - Flow control and pressure relief valves |

Link | NOC:Automation in Manufacturing | Lecture 32 - Graphical representation of hydraulic system elements |

Link | NOC:Automation in Manufacturing | Lecture 33 - Basic concepts and air compressors |

Link | NOC:Automation in Manufacturing | Lecture 34 - Air treatment and pressure regulation |

Link | NOC:Automation in Manufacturing | Lecture 35 - Graphical representation and pneumatic circuits |

Link | NOC:Automation in Manufacturing | Lecture 36 - Computer aided manufacturing and process planning |

Link | NOC:Automation in Manufacturing | Lecture 37 - CNC machines and interpolation |

Link | NOC:Automation in Manufacturing | Lecture 38 - CNC Programming |

Link | NOC:Fundamentals of Compressible Flow | Lecture 1 - Review Concepts of Fluid Mechanics and Thermodynamics - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 2 - Review Concepts of Fluid Mechanics and Thermodynamics - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 3 - Review Concepts of Fluid Mechanics and Thermodynamics - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 4 - Wave Propagation in Compressible Medium - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 5 - Wave Propagation in Compressible Medium - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 6 - Wave Propagation in Compressible Medium - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 7 - Quasi-One Dimensional Isentropic Flow - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 8 - Quasi-One Dimensional Isentropic Flow - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 9 - Quasi-One Dimensional Isentropic Flow - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 10 - Normal Shock Waves - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 11 - Normal Shock Waves - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 12 - Normal Shock Waves - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 13 - Normal Shock Waves - IV |

Link | NOC:Fundamentals of Compressible Flow | Lecture 14 - Expansion Waves and Oblique Shocks - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 15 - Expansion Waves and Oblique Shocks - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 16 - Expansion Waves and Oblique Shocks - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 17 - Expansion Waves and Oblique Shocks - IV |

Link | NOC:Fundamentals of Compressible Flow | Lecture 18 - Expansion Waves and Oblique Shocks - V |

Link | NOC:Fundamentals of Compressible Flow | Lecture 19 - Expansion Waves and Oblique Shocks - VI |

Link | NOC:Fundamentals of Compressible Flow | Lecture 20 - Supersonic Nozzles and Diffusers - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 21 - Supersonic Nozzles and Diffusers - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 22 - Supersonic Nozzles and Diffusers - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 23 - Measurement Diagnostics and Experimental Facilitates for Compressible Flow - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 24 - Compressible Flow with Friction and Heat Transfer - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 25 - Compressible Flow with Friction and Heat Transfer - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 26 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - I |

Link | NOC:Fundamentals of Compressible Flow | Lecture 27 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - II |

Link | NOC:Fundamentals of Compressible Flow | Lecture 28 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - III |

Link | NOC:Fundamentals of Compressible Flow | Lecture 29 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - IV |

Link | NOC:Fundamentals of Compressible Flow | Lecture 30 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - V |

Link | NOC:Fundamentals of Compressible Flow | Lecture 31 - Measurement Diagnostics and Experimental Facilities for Compressible Flow - VI |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 1 - Functional, First variation, Euler Lagrange equation; Several Dependent variables |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 2 - Functional with higher order derivatives; Variational statement |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 3 - Differential equation, Variational statement and Minimization problem; Rayleigh-Ritz method |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 4 - FEM steps: Explained with discrete linear springs; Gaussian Quadrature rule for integration |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 5 - Solving one Ordinary Differential Equation using Linear Finite Element |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 6 - Solving one Ordinary Differential Equation using Quadratic Finite Element |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 7 - Bar Element: Elemental equation; Matlab Implementation with Example |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 8 - Bar Element: Postprocessing; Comparison with Analytical Solution; Bar with linear springs |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 9 - Truss Element: Elemental equation; Matlab Implementation with Example |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 10 - Beam Element: Variational statement; Hermite shape function |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 11 - Beam Element: Elemental equation; Matlab implementation with Example |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 12 - Beam Element: Matlab implementation for the example with Non-uniform distributed load |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 13 - Frame Element: Derivation of elemental equation in global reference frame |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 14 - Frame Element: Matlab implementation with one Example |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 15 - Generalization of Geometry data; Stiffness matrix, Load vector formation at element level |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 16 - Generalization of Assembly, Imposition of Boundary condition and Load information |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 17 - Indicial Notation: Summation convention, Kronecker delta, Permutation symbol |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 18 - Second order tensor; Gradient, Divergence, Curl and Laplacian in Indicial notation |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 19 - Gauss Divergence theorem and its application in Heat transfer and Structural analysis |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 20 - Derivation of weak form of 2D steady-state heat conduction problem |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 21 - Triangular element, calculating element stiffness and element force vector |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 22 - Numerical example, assembly, mapping |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 23 - Numerical integration, Neumann boundary, and higher order shape functions |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 24 - Quadrilateral element, Lagrange shape functions, Serendipity elements |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 25 - Development of a MATLAB code for solving 2D steady-state heat conduction problem |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 26 - Demonstration of the MATLAB code |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 27 - Elasticity problems in two dimension and obtaining the weak form |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 28 - Deriving element stiffness matrix and element force vector, numerical example |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 29 - Development of a MATLAB code for solving planar elasticity problems |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 30 - Superconvergent Patch Recovery, error estimator, adaptive refinement |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 31 - Solving eigenvalue problem in bar and beam, writing FEM code in MATLAB |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 32 - Solving eigenvalue problem of membrane, writing FEM code in MATLAB |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 33 - Solving transient problems (parabolic type) |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 34 - Solving transient problems (hyperbolic type) |

Link | NOC:Finite Element Method: Variational Methods to Computer Programming | Lecture 35 - Solving elasticity problems in 3D using FEM, Solvers |

Link | NOC:Computational Continuum Mechanics | Lecture 1 - Origin of nonlinearities - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 2 - Origin of nonlinearities - 2 |

Link | NOC:Computational Continuum Mechanics | Lecture 3 - Tensor and Tensor Algebra - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 4 - Tensor and Tensor Algebra - 2 |

Link | NOC:Computational Continuum Mechanics | Lecture 5 - Tensor and Tensor Algebra - 3 |

Link | NOC:Computational Continuum Mechanics | Lecture 6 - Tensor and Tensor Algebra - 4 |

Link | NOC:Computational Continuum Mechanics | Lecture 7 - Linearization and directional derivative, Tensor analysis - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 8 - Linearization and directional derivative, Tensor analysis - 2 |

Link | NOC:Computational Continuum Mechanics | Lecture 9 - Worked Examples - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 10 - Worked Examples - 2 |

Link | NOC:Computational Continuum Mechanics | Lecture 11 - Idea of Motion, Material and Spatial Descriptions, Deformation Gradient Tensor |

Link | NOC:Computational Continuum Mechanics | Lecture 12 - Strain, Polar Decomposition - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 13 - Polar Decomposition - 2, Volume and Area Change |

Link | NOC:Computational Continuum Mechanics | Lecture 14 - Worked Examples, Linearized Kinematics |

Link | NOC:Computational Continuum Mechanics | Lecture 15 - Velocity, Acceleration, Material Time Derivative |

Link | NOC:Computational Continuum Mechanics | Lecture 16 - Velocity Gradient, Rate of Deformation tensor, Area and Volume Rate, Reynolds Transport Theorem |

Link | NOC:Computational Continuum Mechanics | Lecture 17 - Solved Examples |

Link | NOC:Computational Continuum Mechanics | Lecture 18 - Conservation of Mass, Balance of Linear Momentum, Cauchy's Stress Principle - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 19 - Cauchy's Stress Principle - 2, Cauchy Stress Tensor |

Link | NOC:Computational Continuum Mechanics | Lecture 20 - Objectivity, Stress Objectivity, Equilibrium Equations - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 21 - Equilibrium Equations - 2, Principle of Virtual Work |

Link | NOC:Computational Continuum Mechanics | Lecture 22 - Work Conjugacy, First Piola-Kirchhoff Stress Tensor |

Link | NOC:Computational Continuum Mechanics | Lecture 23 - Second Piola-Kirchhoff Stress Tensor, Decomposition of Stress - 1 |

Link | NOC:Computational Continuum Mechanics | Lecture 24 - Decomposition of Stress - 2, Objective Stress Measures |

Link | NOC:Computational Continuum Mechanics | Lecture 25 - Solved Examples |

Link | NOC:Computational Continuum Mechanics | Lecture 26 - Constitutive relations and constraints, Hyperelasticity, Material elasticity tensor |

Link | NOC:Computational Continuum Mechanics | Lecture 27 - Spatial Elasticity Tensor, Solved Example |

Link | NOC:Computational Continuum Mechanics | Lecture 28 - Isotropic hyperelasticity - material and spatial description, Hyperelastic models |

Link | NOC:Computational Continuum Mechanics | Lecture 29 - Isotropic Hyperelasticity, Neo-Hookean Material Model, Solved Examples |

Link | NOC:Computational Continuum Mechanics | Lecture 30 - Introduction, Linearization Process Overview |

Link | NOC:Computational Continuum Mechanics | Lecture 31 - Linearization of Internal Virtual Work and External Virtual Work |

Link | NOC:Computational Continuum Mechanics | Lecture 32 - Discretization of Kinematic Quantities, Equilibrium Equations |

Link | NOC:Computational Continuum Mechanics | Lecture 33 - Discretization of Linearized Equilibrium Equations |

Link | NOC:Computational Continuum Mechanics | Lecture 34 - Newton Raphson Method |

Link | NOC:Computational Continuum Mechanics | Lecture 35 - Line Search Method |

Link | NOC:Computational Continuum Mechanics | Lecture 36 - Arc Length Method, Solved Examples |

Link | NOC:Computational Continuum Mechanics | Lecture 37 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Introduction |

Link | NOC:Computational Continuum Mechanics | Lecture 38 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Formulation |

Link | NOC:Computational Continuum Mechanics | Lecture 39 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FEM |

Link | NOC:Computational Continuum Mechanics | Lecture 40 - FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - Results |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 1 - Application of convective heat transfer |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 2 - Foundations of heat transfer |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 3 - Derivation of energy equation |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 4 - Derivation of boundary layer equation |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 5 - Derivation of boundary layer energy equation |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 6 - Blasius solution: similarity method |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 7 - Pohlhausen solution: similarity method |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 8 - Pohlhausen solution: heat transfer parameters |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 9 - Falkner-Skan equation: Boundary layer flow over a wedge |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 10 - Momentum integral equation for flat plate boundary layer |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 11 - Laminar BL flow over flat plate: Uniform surface temperature |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 12 - Laminar BL flow over flat plate: Uniform surface heat flux |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 13 - Solution of example problems |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 14 - Hydrodynamic and thermal regions |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 15 - Energy balance in channel flow |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 16 - Determination of heat transfer coefficient |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 17 - Velocity profile in fully-developed channel flows |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 18 - Thermally fully developed laminar slug flow with uniform wall heat flux condition |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 19 - Hydrodynamically and thermally fully developed flow with uniform wall heat flux condition |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 20 - Fully developed flow through parallel plate channel with uniform wall temperature |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 21 - Fully developed flow through circular pipe with uniform wall temperature |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 22 - Thermally developing flow through circular pipe with uniform wall heat flux |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 23 - Thermally developing flow through circular pipe with uniform wall temperature |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 24 - Heat transfer in plane Couette flow |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 25 - Solutions of example problems |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 26 - Introduction and scale analysis |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 27 - Natural convection over a vertical plate: Similarity Solution |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 28 - Natural convection over a vertical plate: Similarity solution of energy equation |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 29 - Natural convection over a vertical plate: Integral solution |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 30 - Natural convection over inclined plate and mixed convection |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 31 - Natural convection inside enclosures |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 32 - Solution of example problems |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 33 - Basics of finite difference method |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 34 - Solution of Navier-Stokes equations |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 35 - Solution of energy equation |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 36 - Derivation of Reynolds Averaged Navier-Stokes Equations |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 37 - External Turbulent Flow |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 38 - Integral solution for turbulent boundary layer flow over a flat plate |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 39 - Convection in turbulent pipe flow |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 40 - Boiling regimes and boiling curve |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 41 - Laminar film condensation on a vertical plate |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 42 - Laminar film condensation on horizontal tube |

Link | NOC:Fundamentals of Convective Heat Transfer | Lecture 43 - Solution of example problems |

Link | NOC:Theory of Composite Shells | Lecture 1 - Introduction to composite materials |

Link | NOC:Theory of Composite Shells | Lecture 2 - Basic terminology in Shell |

Link | NOC:Theory of Composite Shells | Lecture 3 - Derivation of fundamental theorem of surfaces |

Link | NOC:Theory of Composite Shells | Lecture 4 - Derivative of unit vectors and various theorems |

Link | NOC:Theory of Composite Shells | Lecture 5 - Classification of shells |

Link | NOC:Theory of Composite Shells | Lecture 6 - Derivation of strain-displacement relation |

Link | NOC:Theory of Composite Shells | Lecture 7 - Derivation of shell governing equations - 1 |

Link | NOC:Theory of Composite Shells | Lecture 8 - Derivation of shell governing equations - 2 |

Link | NOC:Theory of Composite Shells | Lecture 9 - Derivation of shell governing equations - 3 |

Link | NOC:Theory of Composite Shells | Lecture 10 - Derivation of special cases |

Link | NOC:Theory of Composite Shells | Lecture 11 - Derivation of shell constitutive relations |

Link | NOC:Theory of Composite Shells | Lecture 12 - Solved examples on membrane theory and moment shell theory |

Link | NOC:Theory of Composite Shells | Lecture 13 - Shell of revolution problems |

Link | NOC:Theory of Composite Shells | Lecture 14 - Derivation of Navier solution for infinite shell panel |

Link | NOC:Theory of Composite Shells | Lecture 15 - Basics of MATLAB coding |

Link | NOC:Theory of Composite Shells | Lecture 16 - Derivation of Navier solution for finite shell panel |

Link | NOC:Theory of Composite Shells | Lecture 17 - ABAQUS Modelling |

Link | NOC:Theory of Composite Shells | Lecture 18 - Extended Kanatrovich method for shell panel |

Link | NOC:Theory of Composite Shells | Lecture 19 - Free Vibration solution of shell panels under Navier and Levy supports - 1 |

Link | NOC:Theory of Composite Shells | Lecture 20 - Free Vibration solution of shell panels under Navier and Levy supports - 2 |

Link | NOC:Theory of Composite Shells | Lecture 21 - Basics of Buckling of shells |

Link | NOC:Theory of Composite Shells | Lecture 22 - Buckling of cylindrical shells |

Link | NOC:Theory of Composite Shells | Lecture 23 - Buckling of Levy-type cylindrical shells |

Link | NOC:Theory of Composite Shells | Lecture 24 - 3D Bending |

Link | NOC:Theory of Composite Shells | Lecture 25 - 3D Free vibration |

Link | NOC:Theory of Composite Shells | Lecture 26 - 3D Buckling |

Link | NOC:Theory of Composite Shells | Lecture 27 - Advanced Material |

Link | NOC:Theory of Composite Shells | Lecture 28 - Free vibration of a composite cylindrical shell |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 1 - Properties, Modelling approaches, Process modelling and Optimization |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 2 - Fusion welding - 1 |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 3 - Fusion welding - 2 |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 4 - Soldering, Brazing, Solid-state welding processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 5 - Advanced welding processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 6 - Advances in laser microwelding |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 7 - Additive manufacturing processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 8 - Elastic stress analysis - I |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 9 - Elastic stress analysis - II and Potential energy method |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 10 - Three-Dimensional element |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 11 - Weighted residual method |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 12 - Material nonlineaity - I |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 13 - Material nonlineaity - II |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 14 - Fluid flow and Natural coordinate system - I |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 15 - Natural coordinate system in 3D and XFEM |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 16 - Introduction to heat source model |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 17 - Heat source models in welding - I |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 18 - Heat source models in welding - II |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 19 - Heat source model for Keyhole mode and solid state welding |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 20 - Implementation of FEM in fusion welding processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 21 - Implementation of FEM for fluid flow in fusion welding processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 22 - FEM modeling of EBW and RSW |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 23 - FEM modeling of FSW and hybrid FSW |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 24 - Demonstration of thermal model development using commercial software |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 25 - Fluid flow modeling in welding processes |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 26 - Heat transfer and fluid flow analysis in quasi-steady state |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 27 - Prediction of free surface profile |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 28 - Principle stress, Hydrostatic and Deviatoric Components of Stress |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 29 - Yield Function, Von Mises Yield Surface and Hardening rule |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 30 - Material models, Residual stress and distortion |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 31 - Phase transformation effect on Residual stress and distortion |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 32 - Demonstration of thermo-mechanical model development using commercial software |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 33 - Fundamentals of metal transfer in arc welding |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 34 - FE-based modelling approaches |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 35 - Theoretical development of heat transfer model |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 36 - Heating of nano-film |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 37 - Theoretical development of stress analysis model |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 38 - Fundamentals of wire arc additive manufacturing processes - I |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 39 - Fundamentals of wire arc additive manufacturing processes - II |

Link | NOC:Finite Element Modeling of Welding Processes | Lecture 40 - Modelling approaches of additive manufacturing |

Link | NOC:Nonlinear Vibration | Lecture 1 - Introduction to mechanical systems |

Link | NOC:Nonlinear Vibration | Lecture 2 - Superposition rule, Commonly used nonlinear equations |

Link | NOC:Nonlinear Vibration | Lecture 3 - Equilibrium points: potential function |

Link | NOC:Nonlinear Vibration | Lecture 4 - Force and moment based Approach, Lagrange Principle |

Link | NOC:Nonlinear Vibration | Lecture 5 - Extended Hamilton’s principle |

Link | NOC:Nonlinear Vibration | Lecture 6 - Use of scaling and book-keeping parameter for ordering |

Link | NOC:Nonlinear Vibration | Lecture 7 - Numerical solution, Analytical solutions: Harmonic Balance method |

Link | NOC:Nonlinear Vibration | Lecture 8 - Straight forward expansion |

Link | NOC:Nonlinear Vibration | Lecture 9 - Lindstd-Poincare’ method |

Link | NOC:Nonlinear Vibration | Lecture 10 - Method of Averaging |

Link | NOC:Nonlinear Vibration | Lecture 11 - Method of multiple scales |

Link | NOC:Nonlinear Vibration | Lecture 12 - Method of generalized Harmonic Balance method |

Link | NOC:Nonlinear Vibration | Lecture 13 - Free vibration of undamped and damped SDOF systems with quadratic and cubic nonlinearity |

Link | NOC:Nonlinear Vibration | Lecture 14 - Super and sub harmonic resonance conditions |

Link | NOC:Nonlinear Vibration | Lecture 15 - Bifurcation analysis of fixed-point response |

Link | NOC:Nonlinear Vibration | Lecture 16 - Nonlinear system with hard excitations |

Link | NOC:Nonlinear Vibration | Lecture 17 - Super and sub harmonic resonance conditions |

Link | NOC:Nonlinear Vibration | Lecture 18 - Bifurcation analysis of fixed-point response |

Link | NOC:Nonlinear Vibration | Lecture 19 - Floquet theory, Hill's infinite determinant, Resonance in parametrically excited systems |

Link | NOC:Nonlinear Vibration | Lecture 20 - Parametrically excited pneumatic artificial muscle |

Link | NOC:Nonlinear Vibration | Lecture 21 - Parametric instability of sandwich plate |

Link | NOC:Nonlinear Vibration | Lecture 22 - Analysis of periodic, quasi-periodic and chaotic systems |

Link | NOC:Nonlinear Vibration | Lecture 23 - Stability and bifurcation analysis of periodic and quasi-periodic response |

Link | NOC:Nonlinear Vibration | Lecture 24 - Analysis of chaotic system |

Link | NOC:Nonlinear Vibration | Lecture 25 - Numerical methods for finding roots and solutions of ODE |

Link | NOC:Nonlinear Vibration | Lecture 26 - Time response, phase portraits, frequency response |

Link | NOC:Nonlinear Vibration | Lecture 27 - Poincare section, FFT, Lyapunov exponent |

Link | NOC:Nonlinear Vibration | Lecture 28 - Pasive and active vibration absorber with displacement and acceleration feedback |

Link | NOC:Nonlinear Vibration | Lecture 29 - Active vibration absorber with time delay acceleration feedback by HBM |

Link | NOC:Nonlinear Vibration | Lecture 30 - Application of Active vibration absorber with combination feedback |

Link | NOC:Nonlinear Vibration | Lecture 31 - Cantilever beam with tip mass for principal parametric resonance |

Link | NOC:Nonlinear Vibration | Lecture 32 - Cantilever beam with tip mass for combination resonance |

Link | NOC:Nonlinear Vibration | Lecture 33 - Cantilever beam based piezoelectric based energy harvestor |

Link | NOC:Nonlinear Vibration | Lecture 34 - Nonlinear dynamics of turning operation with delay and internal resonance |

Link | NOC:Nonlinear Vibration | Lecture 35 - Chatter in rolling mills and dynamic analysis of artificial pneumatic muscle |

Link | NOC:Nonlinear Vibration | Lecture 36 - Chaotic systems and control of chaos |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 1 - Introduction to Optimization |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 2 - Introduction to Evolutionary Computation |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 3 - Binary-Coded Genetic Algorithm (BGA) |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 4 - Operators and Simulations of Binary-Coded Genetic Algorithm |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 5 - Real-Coded Genetic Algorithm (RGA) |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 6 - Operators and Simulations of Real-Coded Genetic Algorithm |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 7 - Algorithmic Implementation of BGA and RGA |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 8 - Particle Swarm Optimization (PSO) |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 9 - Simulations and Algorithmic Implementation of Particle Swarm Optimization |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 10 - Differential Evolution (DE) |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 11 - Simulations and Algorithmic Implementation of Differential Evolution |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 12 - Constrained Optimization: Introduction and Optimality |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 13 - Penalty Function Methods for Evolutionary Computing Techniques |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 14 - Evolutionary Computing Techniques: Separation of Objective Function and Constraints |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 15 - Simulations of Constraint Handling Techniques - Part 1 |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 16 - Simulations of Constraint Handling Techniques - Part 2 |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 17 - Introduction to Multi-Objective Optimization - Part 1 |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 18 - Introduction to Multi-Objective Optimization - Part 2 |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 19 - Multi-Objective Optimization: Ranking and Diversity |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 20 - Classical Multi-Objective Optimization Methods |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 21 - Non-Dominated Genetic Algorithm: NSGA-II: Introduction |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 22 - Non-Dominated Genetic Algorithm: NSGA-II: Simulations |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 23 - Strength Pareto Evolutionary Algorithm: SPEA2: Introduction |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 24 - Strength Pareto Evolutionary Algorithm: SPEA2: Simulations |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 25 - Performance Assessment of Multi-Objective EC Techniques |

Link | NOC:Evolutionary Computation for Single and Multi Objective Optimization | Lecture 26 - Closure of EC for Single and Multi-Objective Optimization |

Link | NOC:Viscous Fluid Flow | Lecture 1 - Preliminary concepts |

Link | NOC:Viscous Fluid Flow | Lecture 2 - Fluid Kinematics |

Link | NOC:Viscous Fluid Flow | Lecture 3 - Derivation of incompressible Navier-Stokes equations |

Link | NOC:Viscous Fluid Flow | Lecture 4 - Initial and Boundary Conditions |

Link | NOC:Viscous Fluid Flow | Lecture 5 - Plane Couette Flow |

Link | NOC:Viscous Fluid Flow | Lecture 6 - Plane Poiseuille Flow |

Link | NOC:Viscous Fluid Flow | Lecture 7 - Plane Poiseuille Flow with Slip and Thin Film Flow |

Link | NOC:Viscous Fluid Flow | Lecture 8 - Combined Couette - Poiseuille Flow |

Link | NOC:Viscous Fluid Flow | Lecture 9 - Example Problems |

Link | NOC:Viscous Fluid Flow | Lecture 10 - Hagen - Poiseuille Flow |

Link | NOC:Viscous Fluid Flow | Lecture 11 - Thin Film Flow and Annular Flow |

Link | NOC:Viscous Fluid Flow | Lecture 12 - Steady Flow Between Rotating Cylinders |

Link | NOC:Viscous Fluid Flow | Lecture 13 - Flow near a plate suddenly set in motion |

Link | NOC:Viscous Fluid Flow | Lecture 14 - Flow due to an oscillating plate |

Link | NOC:Viscous Fluid Flow | Lecture 15 - Transient Plane Couette Flow |

Link | NOC:Viscous Fluid Flow | Lecture 16 - Transient Axisymmetric Poiseuille Flow |

Link | NOC:Viscous Fluid Flow | Lecture 17 - Flow Through Rectangular Duct |

Link | NOC:Viscous Fluid Flow | Lecture 18 - Flow Through Equilateral Triangular Duct |

Link | NOC:Viscous Fluid Flow | Lecture 19 - Flow Through Elliptical Duct |

Link | NOC:Viscous Fluid Flow | Lecture 20 - Example Problems |

Link | NOC:Viscous Fluid Flow | Lecture 21 - Creeping Flow Around a Sphere |

Link | NOC:Viscous Fluid Flow | Lecture 22 - Reynolds Equation for Lubrication |

Link | NOC:Viscous Fluid Flow | Lecture 23 - One-dimensional Slider Bearing |

Link | NOC:Viscous Fluid Flow | Lecture 24 - Journal Bearing and Piston-ring Lubrication |

Link | NOC:Viscous Fluid Flow | Lecture 25 - Derivation of Boundary Layer Equations |

Link | NOC:Viscous Fluid Flow | Lecture 26 - Blasius Flow Over A Flat Plate: Similarity Solution |

Link | NOC:Viscous Fluid Flow | Lecture 27 - Momentum Integral Equation For Flat Plate Boundary Layer |

Link | NOC:Viscous Fluid Flow | Lecture 28 - Falkner-Skan equation: Boundary layer flow over a wedge |

Link | NOC:Viscous Fluid Flow | Lecture 29 - Karman-Pohlhausen Method for Non-zero Pressure Gradient Flows |

Link | NOC:Viscous Fluid Flow | Lecture 30 - The Correlation Method by Thwaites |

Link | NOC:Viscous Fluid Flow | Lecture 31 - Separation of Boundary Layer |

Link | NOC:Viscous Fluid Flow | Lecture 32 - Example Problems |

Link | NOC:Viscous Fluid Flow | Lecture 33 - Two-dimensional Laminar Jet |

Link | NOC:Viscous Fluid Flow | Lecture 34 - Flow in the Wake of a Flat Plate |

Link | NOC:Viscous Fluid Flow | Lecture 35 - Free Shear Layer Between Two Different Streams |

Link | NOC:Viscous Fluid Flow | Lecture 36 - Derivation of Orr-Sommerfeld Equation |

Link | NOC:Viscous Fluid Flow | Lecture 37 - Viscous Stability |

Link | NOC:Viscous Fluid Flow | Lecture 38 - Inviscid Analysis |

Link | NOC:Viscous Fluid Flow | Lecture 39 - Introduction to Turbulent Flows |

Link | NOC:Viscous Fluid Flow | Lecture 40 - Derivation of Reynolds Averaged Navier-Stokes Equations |

Link | NOC:Viscous Fluid Flow | Lecture 41 - External Turbulent Flows |

Link | NOC:Viscous Fluid Flow | Lecture 42 - Integral Solution for Turbulent Boundary Layer Flow |

Link | NOC:Viscous Fluid Flow | Lecture 43 - Internal Turbulent Flow |

Link | NOC:Viscous Fluid Flow | Lecture 44 - Turbulence Modelling |

Link | NOC:Welding Application Technology | Lecture 1 - Plasma Arc Welding (PAW) |

Link | NOC:Welding Application Technology | Lecture 2 - Flux Cored Arc Welding (FCAW) |

Link | NOC:Welding Application Technology | Lecture 3 - Thermit Welding |

Link | NOC:Welding Application Technology | Lecture 4 - Resistance Welding - Part 1 (Resistance Spot Welding) |

Link | NOC:Welding Application Technology | Lecture 5 - Resistance Welding - Part 2 (Types of Resistance Welding) |

Link | NOC:Welding Application Technology | Lecture 6 - Friction Welding |

Link | NOC:Welding Application Technology | Lecture 7 - Friction Stir Welding - Part 1 |

Link | NOC:Welding Application Technology | Lecture 8 - Friction Stir Welding - Part 2 |

Link | NOC:Welding Application Technology | Lecture 9 - Soldering |

Link | NOC:Welding Application Technology | Lecture 10 - Brazing |

Link | NOC:Welding Application Technology | Lecture 11 - Residual Stress - Part 1 |

Link | NOC:Welding Application Technology | Lecture 12 - Residual Stress - Part 2 |

Link | NOC:Welding Application Technology | Lecture 13 - Influencing Factors and Control of Residual Stresses |

Link | NOC:Welding Application Technology | Lecture 14 - Residual Stress Measurement - 1 |

Link | NOC:Welding Application Technology | Lecture 15 - Residual Stress Measurement - 2 |

Link | NOC:Welding Application Technology | Lecture 16 - Residual Stress Measurement by NDT |

Link | NOC:Welding Application Technology | Lecture 17 - Welding Induced Distortion |

Link | NOC:Welding Application Technology | Lecture 18 - Welding Induced Distortion (Control and Measurement) |

Link | NOC:Welding Application Technology | Lecture 19 - Welding Induced Distortion (Measurement and Prediction) |

Link | NOC:Welding Application Technology | Lecture 20 - Welded Joint Analysis |

Link | NOC:Welding Application Technology | Lecture 21 - Welded Joints Analysis (Strength of Parallel and Transverse Fillet Welds) |

Link | NOC:Welding Application Technology | Lecture 22 - Welded Joints Analysis (Analysis of Eccentrically Loaded Welded Joint) |

Link | NOC:Welding Application Technology | Lecture 23 - Welded Joints Static Analysis (Analysis of Eccentrically Loaded Welded Joint - Part 1) |

Link | NOC:Welding Application Technology | Lecture 24 - Welded Joints Static Analysis (Analysis of Eccentrically Loaded Welded Joint - Part 2) |

Link | NOC:Welding Application Technology | Lecture 25 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment) |

Link | NOC:Welding Application Technology | Lecture 26 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment - Part 1) |

Link | NOC:Welding Application Technology | Lecture 27 - Welded Joints Static Analysis (Welded Joint Subjected to Bending Moment - Part 2) |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 1 - Introduction to Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 2 - CAD Models for Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 3 - Manipulation of STL Files |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 4 - Slicing Methods - Part A |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 5 - Slicing Methods - Part B |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 6 - Toolpath Planning |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 7 - Demonstration of CAD-CAM Packages |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 8 - Introduction to Liquid AM |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 9 - Stereolithography Apparatus: Fundamentals of Photopolymerization - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 10 - Stereolithography Apparatus: Fundamentals of Photopolymerization - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 11 - Stereolithography Apparatus: Sub-systems - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 12 - Stereolithography Apparatus: Sub-systems - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 13 - Other Liquid AM Processes - 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 14 - Other Liquid AM Processes - 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 15 - Sheet Additive Manufacturing - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 16 - Sheet Additive Manufacturing - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 17 - Wire Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 18 - Fused Deposition Modeling |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 19 - Metal Wire Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 20 - Metal Inert Gas-Wire Arc Additive Manufacturing (MIG-WAAM) - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 21 - Metal Inert Gas-Wire Arc Additive Manufacturing (MIG-WAAM) - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 22 - Tungsten Inert Gas/Plasma-Wire Arc Additive Manufacturing (TIG/Plasma-WAAM) |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 23 - Electron beam-based Wire Beam Additive Manufacturing (WBAM) |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 24 - Laser Metal Wire Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 25 - Powder-Feed Additive Manufacturing - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 26 - Powder-Feed Additive Manufacturing - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 27 - Process Modeling for Powder Feed Additive Manufacturing - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 28 - Process Modeling for Powder Feed Additive Manufacturing - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 29 - Laser Beam based Powder Bed Additive Manufacturing - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 30 - Laser Beam based Powder Bed Additive Manufacturing - Part 2 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 31 - Electron Beam based Powder Bed Additive Manufacturing |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 32 - Binder based Powder Bed Additive Manufacturing - Part 1 |

Link | NOC:Fundamentals of Additive Manufacturing Technologies | Lecture 33 - Binder based Powder Bed Additive Manufacturing - Part 2 |

Link | NOC:Applied Thermodynamics | Lecture 1 - Thermodynamic Systems and Pure Substance |

Link | NOC:Applied Thermodynamics | Lecture 2 - Heat and Work Transfer - First Law of Thermodynamics |

Link | NOC:Applied Thermodynamics | Lecture 3 - Second Law of Thermodynamics |

Link | NOC:Applied Thermodynamics | Lecture 4 - Entropy and Exergy |

Link | NOC:Applied Thermodynamics | Lecture 5 - Introduction to Steam Power Plant |

Link | NOC:Applied Thermodynamics | Lecture 6 - Thermodynamics aspects of Steam Power Plant-Efficiency and Work ration |

Link | NOC:Applied Thermodynamics | Lecture 7 - Rankine Cycle and its analysis |

Link | NOC:Applied Thermodynamics | Lecture 8 - Improvement in Rankine Cycle Efficiency: Superheating and Reheating |

Link | NOC:Applied Thermodynamics | Lecture 9 - Improvement in Rankine Cycle Efficiency: Reheating and Regenerative Methods |

Link | NOC:Applied Thermodynamics | Lecture 10 - Improvement in Rankine Cycle Efficiency: Regenerative Methods |

Link | NOC:Applied Thermodynamics | Lecture 11 - Regenerative Cycles |

Link | NOC:Applied Thermodynamics | Lecture 12 - Impulse Steam Turbine: Velocity Diagrams,Work Transfer,Blade Efficiency |

Link | NOC:Applied Thermodynamics | Lecture 13 - Impulse Steam Turbine: Velocity Diagrams,Work Transfer,Blade Efficiency (Continued...) |

Link | NOC:Applied Thermodynamics | Lecture 14 - Reaction Steam Turbine |

Link | NOC:Applied Thermodynamics | Lecture 15 - Reaction Steam Turbine: Velocity Diagram, Work transfer, Blade Efficiency |

Link | NOC:Applied Thermodynamics | Lecture 16 - Steam Nozzle: Analysis and Efficiency |

Link | NOC:Applied Thermodynamics | Lecture 17 - Steam Nozzle: Analysis and Efficiency (Continued...) |

Link | NOC:Applied Thermodynamics | Lecture 18 - Boilers and Condensers |

Link | NOC:Applied Thermodynamics | Lecture 19 - Condensers and Second Law Analysis of Steam Power cycle |

Link | NOC:Applied Thermodynamics | Lecture 20 - Exergy Analysis of a Steam Turbine |

Link | NOC:Applied Thermodynamics | Lecture 21 - Numerical Problems: Steam Power Cycle |

Link | NOC:Applied Thermodynamics | Lecture 22 - IC engine-Components, Nomenclature and Classifications |

Link | NOC:Applied Thermodynamics | Lecture 23 - Basic Engine Cycle and Engine Kinematic Analysis |

Link | NOC:Applied Thermodynamics | Lecture 24 - Engine Operating Characteristics |

Link | NOC:Applied Thermodynamics | Lecture 25 - Thermodynamics Analysis of Air Standard Cycles |

Link | NOC:Applied Thermodynamics | Lecture 26 - Valve Timing Diagram and Fuel-Air Cycle |

Link | NOC:Applied Thermodynamics | Lecture 27 - Thermochemistry and Fuel Characteristics |

Link | NOC:Applied Thermodynamics | Lecture 28 - Combustion Phenomena in Engines |

Link | NOC:Applied Thermodynamics | Lecture 29 - Heat Transfer Analysis in Engines |

Link | NOC:Applied Thermodynamics | Lecture 30 - Exergy Analysis and Engine Emission/Pollution |

Link | NOC:Applied Thermodynamics | Lecture 31 - Gas Turbine Engine-Components and Thermal Circuit |

Link | NOC:Applied Thermodynamics | Lecture 32 - Gas Turbine Performance Cycle - I |

Link | NOC:Applied Thermodynamics | Lecture 33 - Gas Turbine Performance Cycle - II |

Link | NOC:Applied Thermodynamics | Lecture 34 - Real Gas Turbine Performance Cycle |

Link | NOC:Applied Thermodynamics | Lecture 35 - Aircraft Propulsion Cycle - I |

Link | NOC:Applied Thermodynamics | Lecture 36 - Aircraft Propulsion Cycle - II |

Link | NOC:Applied Thermodynamics | Lecture 37 - Vapour Compression Refrigeration System - I |

Link | NOC:Applied Thermodynamics | Lecture 38 - Vapour Compression Refrigeration System - II |

Link | NOC:Applied Thermodynamics | Lecture 39 - Absorption Refrigeration and Refrigerants |

Link | NOC:Applied Thermodynamics | Lecture 40 - Fundamentals of Psychrometrics |

Link | NOC:Applied Thermodynamics | Lecture 41 - Air-Conditioning Processes |

Link | NOC:Applied Thermodynamics | Lecture 42 - Cooling Tower and Air Washers |

Link | NOC:Applied Thermodynamics | Lecture 43 - Reciprocating Compressor - Analysis and Modelling |

Link | NOC:Applied Thermodynamics | Lecture 44 - Multistage Compression - Analysis and Modelling |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 1 - Composite Materials - Introduction |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 2 - Composite Materials - Classification |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 3 - Anisotropic Elasticity |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 4 - Orthotropic Materials |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 5 - Hooke’s Law for 2D Lamina |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 6 - Engineering Constants for 2D Lamina |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 7 - Strength Failure Criteria - Part I |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 8 - Strength Failure Criteria - Part II |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 9 - Hygrothermal Behavior of Lamina |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 10 - Introduction and Terminologies |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 11 - Evaluation of Elastic Moduli |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 12 - Evaluation of Longitudinal Strength |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 13 - Evaluation of Transverse and Shear Strengths |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 14 - Evaluation of Hygrothermal Properties |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 15 - Elasticity Approach |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 16 - Experimental Evaluation |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 17 - Laminate - Introduction |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 18 - Classical Lamination Theory - Part I |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 19 - Classical Lamination Theory - Part II |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 20 - Response of Laminate - Significance of ABBD |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 21 - Special Classes of Laminates |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 22 - Engineering Constants of Laminates |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 23 - Hygrothermal Behaviour of Laminates |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 24 - Analysis of Laminates |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 25 - Failure of Laminates |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 26 - Failure Analysis under Combined Loading |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 27 - Design Example - I |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 28 - Design Example - II |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 29 - Interlaminar Stresses- Delamination |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 30 - Prediction of Delamination |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 31 - Transverse Deflection |

Link | NOC:Mechanics of Fiber Reinforced Polymer Composite Structures | Lecture 32 - Buckling and Free Vibration |

Link | NOC:Laser Based Manufacturing | Lecture 1 - Lasers in Manufacturing: Importance and Applications |

Link | NOC:Laser Based Manufacturing | Lecture 2 - Fundamentals of Laser Technology |

Link | NOC:Laser Based Manufacturing | Lecture 3 - Laser System: Construction and Types |

Link | NOC:Laser Based Manufacturing | Lecture 4 - Principle of Operation, Types of Laser Cutting, and Kerf Geometry |

Link | NOC:Laser Based Manufacturing | Lecture 5 - Types of Lasers in Material Removal, Process and Performance Parameters |

Link | NOC:Laser Based Manufacturing | Lecture 6 - A Case-study on Cutting a Circular Part using CO2 Laser Machine |

Link | NOC:Laser Based Manufacturing | Lecture 7 - Mechanisms of Laser Welding - Part I |

Link | NOC:Laser Based Manufacturing | Lecture 8 - Mechanisms of Laser Welding - Part II |

Link | NOC:Laser Based Manufacturing | Lecture 9 - Effects of Process Parameters during Laser Welding and Study of Defects in Weld Beads |

Link | NOC:Laser Based Manufacturing | Lecture 10 - A Case Study on Welding of Mild Steel Sheets using 2.5 kW CO2 Laser Machine |

Link | NOC:Laser Based Manufacturing | Lecture 11 - Material Forming and Fundamentals of Laser Forming |

Link | NOC:Laser Based Manufacturing | Lecture 12 - Mechanisms of Laser Forming |

Link | NOC:Laser Based Manufacturing | Lecture 13 - Process Parameters and their Effects on the Performance of Laser Forming |

Link | NOC:Laser Based Manufacturing | Lecture 14 - Surface Treatment and Application of Lasers |

Link | NOC:Laser Based Manufacturing | Lecture 15 - Laser Surface Hardening |

Link | NOC:Laser Based Manufacturing | Lecture 16 - Laser Surface Alloying |

Link | NOC:Laser Based Manufacturing | Lecture 17 - Laser Cladding |

Link | NOC:Laser Based Manufacturing | Lecture 18 - Additive Manufacturing Techniques |

Link | NOC:Laser Based Manufacturing | Lecture 19 - Laser Scanning Stereolithography |

Link | NOC:Laser Based Manufacturing | Lecture 20 - Selective Laser Sintering and Selective Laser Melting |

Link | NOC:Laser Based Manufacturing | Lecture 21 - Process and Performance Parameters of Laser Based Additive Manufacturing Techniques |

Link | NOC:Laser Based Manufacturing | Lecture 22 - Lasers in Manufacturing Automation |

Link | NOC:Laser Based Manufacturing | Lecture 23 - CNC for Laser Based Manufacturing |

Link | NOC:Laser Based Manufacturing | Lecture 24 - CAD for Laser Based Manufacturing |

Link | NOC:Laser Based Manufacturing | Lecture 25 - Laser-assisted Material Forming |

Link | NOC:Laser Based Manufacturing | Lecture 26 - Effect of Coatings, 3D Laser Forming and Micro-forming |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 1 - Temperature and Zeroth Law of Thermodynamics |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 2 - Work and Heat Transfer - First Law of Thermodynamics |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 3 - Heat Engines and Refrigerators/Heat Pump - Second Law of Thermodynamics |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 4 - Entropy Analysis - Part I |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 5 - Entropy Analysis - Part II |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 6 - Entropy Analysis - Part III |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 7 - Exergy Analysis - Part I |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 8 - Exergy Analysis - Part II |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 9 - Exergy Analysis - Part III |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 10 - Thermodynamic Functions and Maxwell's Equations |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 11 - Property Relations for Phase Change Processes |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 12 - Property Relations for Single Phase Systems |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 13 - Heat Capacity Equations and its Applications |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 14 - Joule - Thomson Coefficient and Liquefaction of Gases |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 15 - Ideal Gas and Real Gas |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 16 - Gas Mixtures and Multi-Component System |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 17 - Ideal Gas Mixture |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 18 - Mixing Analysis of Thermodynamic Systems |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 19 - Thermodynamic Considerations of Combustion |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 20 - Conservation of Energy for Reacting Systems |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 21 - Adiabatic Flame Temperature, Entropy and Gibbs Function for Reacting System |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 22 - Equilibrium Products of Combustion and Effective Energy Utilization |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 23 - Fundamentals of Chemical Reactions |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 24 - Reaction Mechanisms - Part I |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 25 - Reaction Mechanisms - Part II |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 26 - Chemical and Thermal Analysis of Reacting Systems |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 27 - Simplified Conservation Equations for Reacting Flows |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 28 - Laminar Premixed Flame - Part I |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 29 - Laminar Premixed Flame - Part II |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 30 - Laminar Diffusion Flame |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 31 - Droplet Evaporation and Turbulent Flame |

Link | NOC:Advanced Thermodynamics and Combustion | Lecture 32 - Engine Combustion and Pollution |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 1 - First law of Thermodynamics for control mass and control volume systems |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 2 - First law of Thermodynamics for control volume system (Flow system) |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 3 - Steady State Steady Flow Processes, combination of First and Second Laws |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 4 - Second Law of Thermodynamics: A Brief Review |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 5 - Combined First and Second Laws Applied to Processes |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 6 - Combined First and Second Laws: Flow and Non-Flow Processes |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 7 - Description of Steam Power Plant: Application of 1st and 2nd Laws to Different Processes |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 8 - Second Law Applied to Processes of Power Plant and Ideal Cycle of Power Plant |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 9 - Steam Power Plant: Thermodynamic aspects, Efficiency, Work ratio and Ideal Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 10 - Ideal Power Cycle and its Limitations, Introduction to Actual Power Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 11 - Limitations of Carnot Cycle, Simple Rankine Cycle and Analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 12 - Analysis of Simple Rankine Cycle and its Design Modifications |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 13 - Reheat Cycle and Analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 14 - Reheat Cycle and Analysis (Continued...) |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 15 - Regenerative Principle of Steam Power Cycles |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 16 - Analysis of Regenerative Steam Power Cycles |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 17 - Regenerative Steam Power Cycle with Closed Feed-Water Heater, Ideal Working Fluid |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 18 - Multi-fluid Cycle and Analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 19 - Analysis of Multi-fluid Cycle; Second Law Analysis of Steam Power Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 20 - Problems of Steam Power Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 21 - Problems of Steam Power Cycle (Continued...) |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 22 - Types of Boiler, Different Cycles in Boiler Operation, Boiler attachment |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 23 - Cochran Boiler Operation, Boiler attachment |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 24 - Boiler Attachments |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 25 - Superheaters and their Arrangements, Steam Temperature Control |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 26 - Characteristics of Convective and Radiant Superheaters; Steam Temperature Control |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 27 - Problems on Boiler/Steam Generator |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 28 - Use of nozzles in steam power plant, flow analysis of steam in nozzle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 29 - Flow analysis of steam in nozzle: Mass flow rate |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 30 - Mass flow rate of steam in nozzle, Critical Pressure Ratio |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 31 - Critical Pressure Ratio and its Physical Significance |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 32 - Nozzle efficiency and factors that affect the efficiency |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 33 - Factors that affect the efficiency, problem on flow nozzle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 34 - Problem on flow nozzle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 35 - Steam Turbines: types and analysis using velocity triangles |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 36 - Analysis of Impulse Steam Turbine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 37 - Compounding of Steam Turbine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 38 - Analysis of Reaction Steam Turbine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 39 - Problems on Steam Turbine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 40 - The Role of Condenser in Power Plant |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 41 - Cooling Tower: Types and Analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 42 - Cooling Tower Performance |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 43 - IC Engines, Classification, Different Parts, SI and CI Engines |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 44 - Comparison of 2-stroke and 4-stroke Engines |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 45 - Comparison of SI and CI Engines, Compression Ratio |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 46 - Introduction to Carburettor and Regimes of Engine Operation |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 47 - Regimes of Engine Operation and Simple Float Type Carburettor |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 48 - Simple Float Type Carburettor and its Analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 49 - Mass Flow Rate of Fuel and limitations of Simple Float Type Carburettor |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 50 - Limitations of Simple Float Type Carburettor, Problem on Carburettion |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 51 - Engine Operating Characteristics: MEP and Indicator diagram |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 52 - Performance Analysis parameters of IC Engine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 53 - Fuel of IC Engines |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 54 - Alternative Fuels and Self Ignition Characteristics of Fuel: Octane Numner, Cetane Number |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 55 - Thermodynamic Analysis of SI Engine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 56 - Thermodynamic Analysis of CI Engine |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 57 - Numerical Problems on Engine Performance |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 58 - Pressure-Crank angle diagram, Engine Efficiencies |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 59 - Numerical Problems on SI and CI Engines |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 60 - Vapour Compression Refrigeration Cycle and its analysis |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 61 - Problems on Vapour Compression Refrigeration Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 62 - Gas Turbine Units and Thermodynamic Cycles |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 63 - Gas Compressor and Optimum Pressure Ratio |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 64 - Compressor Efficiency and Multistage Compression with Intercooling |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 65 - Gas Turbine Unit: Combined Cycle |

Link | NOC:Thermal Engineering: Basic and Applied | Lecture 66 - Problems On Gas Turbine Cycle |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 1 - Introduction to sheet forming and tensile test of sheets |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 2 - Tensile test, effect of properties, exercise problem |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 3 - Sheet deformation processes |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 4 - Sheet deformation processes (Continued...) |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 5 - Sheet deformation processes (Continued...) |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 6 - Sheet deformation in plane stress |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 7 - Sheet deformation in plane stress (Continued...) |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 8 - Stamping analyses |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 9 - Load instability and tearing |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 10 - Load instability and tearing |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 11 - Formability testing of sheet metals |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 12 - Sheet formability |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 13 - Sheet formability (Continued...) |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 14 - Bending of sheets |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 15 - Bending of sheets (Continued...) |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 16 - Cup deep drawing |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 17 - Deep drawing, redrawing, ironing of cup |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 18 - Stretching of sheet |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 19 - Hydroforming |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 20 - Yield functions with sheet anisotropy |

Link | NOC:Mechanics of Sheet Metal Forming | Lecture 21 - Demonstration of sheet forming experiments |

Link | NOC:Power Plant System Engineering | Lecture 1 - Thermodynamics Concepts - Part I |

Link | NOC:Power Plant System Engineering | Lecture 2 - Thermodynamics Concepts - Part II |

Link | NOC:Power Plant System Engineering | Lecture 3 - Thermodynamic Analysis of Vapor Power Cycle |

Link | NOC:Power Plant System Engineering | Lecture 4 - Rankine Cycle |

Link | NOC:Power Plant System Engineering | Lecture 5 - Modified Rankine Cycle |

Link | NOC:Power Plant System Engineering | Lecture 6 - Exergy Analysis of Vapor Power Cycles |

Link | NOC:Power Plant System Engineering | Lecture 7 - Rotodynambic Machines |

Link | NOC:Power Plant System Engineering | Lecture 8 - Impulse Turbine |

Link | NOC:Power Plant System Engineering | Lecture 9 - Reaction Turbine |

Link | NOC:Power Plant System Engineering | Lecture 10 - Performance Analysis of Steam Turbines |

Link | NOC:Power Plant System Engineering | Lecture 11 - Steam Nozzles - Part I |

Link | NOC:Power Plant System Engineering | Lecture 12 - Steam Nozzles - Part II |

Link | NOC:Power Plant System Engineering | Lecture 13 - Steam Generator |

Link | NOC:Power Plant System Engineering | Lecture 14 - Water Tube Boiler - Part I |

Link | NOC:Power Plant System Engineering | Lecture 15 - Water Tube Boiler - Part II |

Link | NOC:Power Plant System Engineering | Lecture 16 - Fuels and Combustion - Part I |

Link | NOC:Power Plant System Engineering | Lecture 17 - Fuels and Combustion - Part II |

Link | NOC:Power Plant System Engineering | Lecture 18 - Steam Condenser |

Link | NOC:Power Plant System Engineering | Lecture 19 - Feed Water Heaters |

Link | NOC:Power Plant System Engineering | Lecture 20 - Cooling Towers |

Link | NOC:Power Plant System Engineering | Lecture 21 - Fundamentals of Gas turbine systems |

Link | NOC:Power Plant System Engineering | Lecture 22 - Modifications of Brayton cycle |

Link | NOC:Power Plant System Engineering | Lecture 23 - Combined Power cycle |

Link | NOC:Power Plant System Engineering | Lecture 24 - Gas Turbines for Aircraft Propulsion |

Link | NOC:Power Plant System Engineering | Lecture 25 - Hydro-Power System - Part I |

Link | NOC:Power Plant System Engineering | Lecture 26 - Hydro-Power System - Part II |

Link | NOC:Power Plant System Engineering | Lecture 27 - Wind Energy - Part I |

Link | NOC:Power Plant System Engineering | Lecture 28 - Wind Energy - Part II |

Link | NOC:Power Plant System Engineering | Lecture 29 - Energy From Oceans - Part I |

Link | NOC:Power Plant System Engineering | Lecture 30 - Energy From Oceans - Part II |

Link | NOC:Power Plant System Engineering | Lecture 31 - Geothermal Energy |

Link | NOC:Power Plant System Engineering | Lecture 32 - Energy Storage - I |

Link | NOC:Power Plant System Engineering | Lecture 33 - Energy Storage - II |

Link | NOC:Power Plant System Engineering | Lecture 34 - Energy Storage - III |

Link | NOC:Introduction to Solidification Processing | Lecture 1 - Introduction to phase diagrams |

Link | NOC:Introduction to Solidification Processing | Lecture 2 - Thermodynamic relations |

Link | NOC:Introduction to Solidification Processing | Lecture 3 - Single component system and binary solutions |

Link | NOC:Introduction to Solidification Processing | Lecture 4 - Regular solutions |

Link | NOC:Introduction to Solidification Processing | Lecture 5 - Real solutions |

Link | NOC:Introduction to Solidification Processing | Lecture 6 - Phase transformations |

Link | NOC:Introduction to Solidification Processing | Lecture 7 - Practice problems (Module 1) |

Link | NOC:Introduction to Solidification Processing | Lecture 8 - Introduction to homogenous nucleation process |

Link | NOC:Introduction to Solidification Processing | Lecture 9 - Fundamental to heterogeneous nucleation |

Link | NOC:Introduction to Solidification Processing | Lecture 10 - Growth of pure metal |

Link | NOC:Introduction to Solidification Processing | Lecture 11 - Alloy solidification |

Link | NOC:Introduction to Solidification Processing | Lecture 12 - Formation of different S/L interface |

Link | NOC:Introduction to Solidification Processing | Lecture 13 - Solidifcation structures and segregation |

Link | NOC:Introduction to Solidification Processing | Lecture 14 - Weld Metal Solidification and Microstructure - I |

Link | NOC:Introduction to Solidification Processing | Lecture 15 - Weld Metal Solidification and Microstructure - II |

Link | NOC:Introduction to Solidification Processing | Lecture 16 - Solidification of additive manufacturing - I |

Link | NOC:Introduction to Solidification Processing | Lecture 17 - Solidification of additive manufacturing - II |

Link | NOC:Introduction to Solidification Processing | Lecture 18 - Rate of solidification-sand casting |

Link | NOC:Introduction to Solidification Processing | Lecture 19 - Rate of solidification-die casting |

Link | NOC:Introduction to Solidification Processing | Lecture 20 - Riser design and solidification of pure metal |

Link | NOC:Introduction to Solidification Processing | Lecture 21 - Zone melting and rapid solidification |

Link | NOC:Introduction to Solidification Processing | Lecture 22 - Semisolid processing and other solidification techniques |

Link | NOC:Introduction to Solidification Processing | Lecture 23 - Demonstration of the solidification process and numerical problems |

Link | Acoustics | Lecture 1 - Intro, sound wave versus vibration, different types of waves, octave, music scales, sense of SPL |

Link | Acoustics | Lecture 2 - Review: Linearity, complex numbers, and spring mass system |

Link | Acoustics | Lecture 3 - Review: Poles and zeroes, phase and magnitude plots, transfer functions, Bode plots |

Link | Acoustics | Lecture 4 - Review: Transfer functions, and Bode plots |

Link | Acoustics | Lecture 5 - 1-D wave equation, and its solution |

Link | Acoustics | Lecture 6 - Solution for 1-D wave equation |

Link | Acoustics | Lecture 7 - Waveguides, transmission line equations, and standing waves |

Link | Acoustics | Lecture 8 - Waveguides, transmission line equations, and standing waves |

Link | Acoustics | Lecture 9 - Examples of 1-D waves in tubes, short tubes, Kundt's tube |

Link | Acoustics | Lecture 10 - Thermodynamic processes during sound transmission |

Link | Acoustics | Lecture 11 - Numerical examples |

Link | Acoustics | Lecture 12 - Sound transmission through walls |

Link | Acoustics | Lecture 13 - Sound transmission through walls |

Link | Acoustics | Lecture 14 - Leakage in walls, STC Ratings, Octave bands |

Link | Acoustics | Lecture 15 - Instantaneous power flow |

Link | Acoustics | Lecture 16 - Radial propagation of sound, monopoles, and dipoles |

Link | Acoustics | Lecture 17 - Radial propagation of sound, monopoles, and dipoles |

Link | Acoustics | Lecture 18 - Radial propagation of sound, monopoles, and dipoles |

Link | Acoustics | Lecture 19 - Numerical examples |

Link | Acoustics | Lecture 20 - Numerical examples |

Link | Acoustics | Lecture 21 - Directivity |

Link | Acoustics | Lecture 22 - Directivity |

Link | Acoustics | Lecture 23 - Directivity |

Link | Acoustics | Lecture 24 - Directivity |

Link | Acoustics | Lecture 25 - Generalized elements |

Link | Acoustics | Lecture 26 - Examples of electromechanical systems |

Link | Acoustics | Lecture 27 - Transformers, radiation impedance, and Helmholtz resonator |

Link | Acoustics | Lecture 28 - Radiation impedance |

Link | Acoustics | Lecture 29 - Radiation impedance |

Link | Acoustics | Lecture 30 - Models of electro-mechanical-acoustic systems |

Link | Acoustics | Lecture 31 - Solution for a loudspeaker model |

Link | Acoustics | Lecture 32 - Microphones |

Link | Acoustics | Lecture 33 - Vibro-meter, seismometer, accelerometer, shaker table |

Link | Acoustics | Lecture 34 - Sound propagation in rooms, 1-D rooms, 2D rooms |

Link | Acoustics | Lecture 35 - Sound in 3-D rooms |

Link | Acoustics | Lecture 36 - Absorption coefficient, and irregular rooms |

Link | Acoustics | Lecture 37 - Room constant, and Sabine's coefficient |

Link | Acoustics | Lecture 38 - Design of a muffler |

Link | Acoustics | Lecture 39 - Noise in machines, basics of noise management |

Link | Advanced Machining Processes | Lecture 1 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 2 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 3 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 4 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 5 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 6 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 7 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 8 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 9 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 10 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 11 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 12 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 13 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 14 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 15 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 16 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 17 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 18 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 19 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 20 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 21 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 22 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 23 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 24 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 25 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 26 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 27 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 28 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 29 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 30 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 31 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 32 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 33 - Advanced Machining Processes |

Link | Advanced Machining Processes | Lecture 34 - Advanced Machining Processes |

Link | Biomicroelectromechanical systems | Lecture 1 |

Link | Biomicroelectromechanical systems | Lecture 2 |

Link | Biomicroelectromechanical systems | Lecture 3 |

Link | Biomicroelectromechanical systems | Lecture 4 |

Link | Biomicroelectromechanical systems | Lecture 5 |

Link | Biomicroelectromechanical systems | Lecture 6 |

Link | Biomicroelectromechanical systems | Lecture 7 |

Link | Biomicroelectromechanical systems | Lecture 8 |

Link | Biomicroelectromechanical systems | Lecture 9 |

Link | Biomicroelectromechanical systems | Lecture 10 (same as 9) |

Link | Biomicroelectromechanical systems | Lecture 11 |

Link | Biomicroelectromechanical systems | Lecture 12 |

Link | Biomicroelectromechanical systems | Lecture 13 |

Link | Biomicroelectromechanical systems | Lecture 14 |

Link | Biomicroelectromechanical systems | Lecture 15 |

Link | Biomicroelectromechanical systems | Lecture 16 |

Link | Biomicroelectromechanical systems | Lecture 17 |

Link | Biomicroelectromechanical systems | Lecture 18 |

Link | Biomicroelectromechanical systems | Lecture 19 |

Link | Biomicroelectromechanical systems | Lecture 20 |

Link | Biomicroelectromechanical systems | Lecture 21 |

Link | Biomicroelectromechanical systems | Lecture 22 |

Link | Biomicroelectromechanical systems | Lecture 23 |

Link | Biomicroelectromechanical systems | Lecture 24 |

Link | Biomicroelectromechanical systems | Lecture 25 |

Link | Biomicroelectromechanical systems | Lecture 26 |

Link | Biomicroelectromechanical systems | Lecture 27 |

Link | Biomicroelectromechanical systems | Lecture 28 |

Link | Biomicroelectromechanical systems | Lecture 29 |

Link | Biomicroelectromechanical systems | Lecture 30 |

Link | Biomicroelectromechanical systems | Lecture 31 |

Link | Biomicroelectromechanical systems | Lecture 32 |

Link | Biomicroelectromechanical systems | Lecture 33 |

Link | Biomicroelectromechanical systems | Lecture 34 |

Link | Biomicroelectromechanical systems | Lecture 35 |

Link | Biomicroelectromechanical systems | Lecture 36 |

Link | Biomicroelectromechanical systems | Lecture 37 |

Link | Biomicroelectromechanical systems | Lecture 38 |

Link | Biomicroelectromechanical systems | Lecture 39 |

Link | Biomicroelectromechanical systems | Lecture 40 |

Link | Computer Aided Engineering Design | Lecture 1 |

Link | Computer Aided Engineering Design | Lecture 2 |

Link | Computer Aided Engineering Design | Lecture 3 |

Link | Computer Aided Engineering Design | Lecture 4 |

Link | Computer Aided Engineering Design | Lecture 5 |

Link | Computer Aided Engineering Design | Lecture 6 |

Link | Computer Aided Engineering Design | Lecture 7 |

Link | Computer Aided Engineering Design | Lecture 8 |

Link | Computer Aided Engineering Design | Lecture 9 |

Link | Computer Aided Engineering Design | Lecture 10 |

Link | Computer Aided Engineering Design | Lecture 11 |

Link | Computer Aided Engineering Design | Lecture 12 |

Link | Computer Aided Engineering Design | Lecture 13 |

Link | Computer Aided Engineering Design | Lecture 14 |

Link | Computer Aided Engineering Design | Lecture 15 |

Link | Computer Aided Engineering Design | Lecture 16 |

Link | Computer Aided Engineering Design | Lecture 17 |

Link | Computer Aided Engineering Design | Lecture 18 |

Link | Computer Aided Engineering Design | Lecture 19 |

Link | Computer Aided Engineering Design | Lecture 20 |

Link | Computer Aided Engineering Design | Lecture 21 |

Link | Computer Aided Engineering Design | Lecture 22 |

Link | Computer Aided Engineering Design | Lecture 23 |

Link | Computer Aided Engineering Design | Lecture 24 |

Link | Computer Aided Engineering Design | Lecture 25 |

Link | Computer Aided Engineering Design | Lecture 26 |

Link | Computer Aided Engineering Design | Lecture 27 |

Link | Computer Aided Engineering Design | Lecture 28 |

Link | Computer Aided Engineering Design | Lecture 29 |

Link | Computer Aided Engineering Design | Lecture 30 |

Link | Computer Aided Engineering Design | Lecture 31 |

Link | Computer Aided Engineering Design | Lecture 32 |

Link | Computer Aided Engineering Design | Lecture 33 |

Link | Computer Aided Engineering Design | Lecture 34 |

Link | Computer Aided Engineering Design | Lecture 35 |

Link | Computer Aided Engineering Design | Lecture 36 |

Link | Computer Aided Engineering Design | Lecture 37 |

Link | Computer Aided Engineering Design | Lecture 38 |

Link | Computer Aided Engineering Design | Lecture 39 |

Link | Computer Aided Engineering Design | Lecture 40 |

Link | Mathematical Methods in Engineering and Science | Lecture 1 - Introduction |

Link | Mathematical Methods in Engineering and Science | Lecture 2 - Basic Ideas of Applied Linear Algebra |

Link | Mathematical Methods in Engineering and Science | Lecture 3 - Systems of Linear Equations |

Link | Mathematical Methods in Engineering and Science | Lecture 4 - Square Non-Singular Systems |

Link | Mathematical Methods in Engineering and Science | Lecture 5 - Ill-Conditioned and Ill-Posed Systems |

Link | Mathematical Methods in Engineering and Science | Lecture 6 - The Algebraic Eigenvalue Problem |

Link | Mathematical Methods in Engineering and Science | Lecture 7 - Canonical Forms, Symmetric Matrices |

Link | Mathematical Methods in Engineering and Science | Lecture 8 - Methods of Plane Rotations |

Link | Mathematical Methods in Engineering and Science | Lecture 9 - Householder Method, Tridiagonal Matrices |

Link | Mathematical Methods in Engineering and Science | Lecture 10 - QR Decomposition, General Matrices |

Link | Mathematical Methods in Engineering and Science | Lecture 11 - Singular Value Decomposition |

Link | Mathematical Methods in Engineering and Science | Lecture 12 - Vector Space: Concepts |

Link | Mathematical Methods in Engineering and Science | Lecture 13 - Multivariate Calculus |

Link | Mathematical Methods in Engineering and Science | Lecture 14 - Vector Calculus in Geometry |

Link | Mathematical Methods in Engineering and Science | Lecture 15 - Vector Calculus in Physics |

Link | Mathematical Methods in Engineering and Science | Lecture 16 - Solution of Equations |

Link | Mathematical Methods in Engineering and Science | Lecture 17 - Introdcution to Optimization |

Link | Mathematical Methods in Engineering and Science | Lecture 18 - Multivariate Optimization |

Link | Mathematical Methods in Engineering and Science | Lecture 19 - Constrained Optimization: Optimality Criteria |

Link | Mathematical Methods in Engineering and Science | Lecture 20 - Constrained Optimization: Further Issues |

Link | Mathematical Methods in Engineering and Science | Lecture 21 - Interpolation |

Link | Mathematical Methods in Engineering and Science | Lecture 22 - Numerical Integration |

Link | Mathematical Methods in Engineering and Science | Lecture 23 - Numerical Solution of ODE's as IVP |

Link | Mathematical Methods in Engineering and Science | Lecture 24 - Boundary Value Problems, Question of Stability in IVP Solution |

Link | Mathematical Methods in Engineering and Science | Lecture 25 - Stiff Differential Equations, Existence and Uniqueness Theory |

Link | Mathematical Methods in Engineering and Science | Lecture 26 - Theory of First Order ODE's |

Link | Mathematical Methods in Engineering and Science | Lecture 27 - Linear Second Order ODE's |

Link | Mathematical Methods in Engineering and Science | Lecture 28 - Methods of Linear ODE's |

Link | Mathematical Methods in Engineering and Science | Lecture 29 - ODE Systems |

Link | Mathematical Methods in Engineering and Science | Lecture 30 - Stability of Dynamic Systems |

Link | Mathematical Methods in Engineering and Science | Lecture 31 - Series Solutions and Special Functions |

Link | Mathematical Methods in Engineering and Science | Lecture 32 - Sturm-Liouville Theory |

Link | Mathematical Methods in Engineering and Science | Lecture 33 - Approximation Theory and Fourier Series |

Link | Mathematical Methods in Engineering and Science | Lecture 34 - Fourier Integral to Fourier Transform, Minimax Approximation |

Link | Mathematical Methods in Engineering and Science | Lecture 35 - Separation of Variables in PDE's, Hyperbolic Equations |

Link | Mathematical Methods in Engineering and Science | Lecture 36 - Parabolic and Elliptic Equations, Membrane Equation |

Link | Mathematical Methods in Engineering and Science | Lecture 37 - Analytic Functions |

Link | Mathematical Methods in Engineering and Science | Lecture 38 - Integration of Complex Functions |

Link | Mathematical Methods in Engineering and Science | Lecture 39 - Singularities and Residues |

Link | Mathematical Methods in Engineering and Science | Lecture 40 - Calculus of Variations |

Link | Dynamics of Machines | Lecture 1 - Rigid Body Motion - Part 1 |

Link | Dynamics of Machines | Lecture 2 - Rigid Body Motion - Part 2 |

Link | Dynamics of Machines | Lecture 3 - Dynamic Force Analysis of Mechanisms |

Link | Dynamics of Machines | Lecture 4 - Space Motion of Rigid Bodies |

Link | Dynamics of Machines | Lecture 5 - Inertia Tensor Angular Momentum |

Link | Dynamics of Machines | Lecture 6 - Euler's Equation of Motion |

Link | Dynamics of Machines | Lecture 7 - Gyroscopic Action in Machines |

Link | Dynamics of Machines | Lecture 8 - Unbalance in Machines |

Link | Dynamics of Machines | Lecture 9 - Rotary Balancing |

Link | Dynamics of Machines | Lecture 10 - Balancing Machines |

Link | Dynamics of Machines | Lecture 11 - Field Balancing of Rotors |

Link | Dynamics of Machines | Lecture 12 - Single-Cylinder Engine Balancing |

Link | Dynamics of Machines | Lecture 13 - Balancing of Single Slider Machines |

Link | Dynamics of Machines | Lecture 14 - In-Line Engine Balancing |

Link | Dynamics of Machines | Lecture 15 - V and Radial Engine Balancing |

Link | Dynamics of Machines | Lecture 16 - Turning Moment Diagram |

Link | Dynamics of Machines | Lecture 17 - Flywheel Analysis |

Link | Dynamics of Machines | Lecture 18 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 19 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 20 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 21 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 22 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 23 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 24 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 25 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 26 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 27 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 28 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 29 - Rotating Vector Approach |

Link | Dynamics of Machines | Lecture 30 - Equivalent viscous damping |

Link | Dynamics of Machines | Lecture 31 - Dynamics of Machines |

Link | Dynamics of Machines | Lecture 32 - Systems with two degree of freedom |

Link | Dynamics of Machines | Lecture 33 - Tuned Vibration Absorber |

Link | Dynamics of Machines | Lecture 34 - Design of Vibration Absorbers |

Link | Dynamics of Machines | Lecture 35 - Flexibility Matrix Influence Coeff |

Link | Dynamics of Machines | Lecture 36 - Forced Vibration of multiple |

Link | Dynamics of Machines | Lecture 37 - Forced Vibration of Multiple degrees |

Link | Dynamics of Machines | Lecture 38 - Vibration of Continuous Systems |

Link | Dynamics of Machines | Lecture 39 - Vibration of Continuous Systems |

Link | Dynamics of Machines | Lecture 40 - Vibration of Beams |

Link | Dynamics of Machines | Lecture 41 - Rayleigh's method |

Link | Dynamics of Machines | Lecture 42 - Rayleigh-Ritz Method |

Link | Dynamics of Machines | Lecture 43 - Vibration Measurement |

Link | Dynamics of Machines | Lecture 44 - Vibration Measurement Types of Pickups |

Link | Finite Element Method | Module 1 - Lecture 1 |

Link | Finite Element Method | Module 1 - Lecture 2 |

Link | Finite Element Method | Module 1 - Lecture 3 |

Link | Finite Element Method | Module 2 - Lecture 1 |

Link | Finite Element Method | Module 2 - Lecture 2 |

Link | Finite Element Method | Module 2 - Lecture 3 |

Link | Finite Element Method | Module 2 - Lecture 4 |

Link | Finite Element Method | Module 3 - Lecture 1 |

Link | Finite Element Method | Module 3 - Lecture 2 |

Link | Finite Element Method | Module 3 - Lecture 3 |

Link | Finite Element Method | Module 4 - Lecture 1 |

Link | Finite Element Method | Module 4 - Lecture 2 |

Link | Finite Element Method | Module 4 - Lecture 3 |

Link | Finite Element Method | Module 5 - Lecture 1 |

Link | Finite Element Method | Module 5 - Lecture 2 |

Link | Finite Element Method | Module 5 - Lecture 3 |

Link | Finite Element Method | Module 6 - Lecture 1 |

Link | Finite Element Method | Module 6 - Lecture 2 |

Link | Finite Element Method | Module 6 - Lecture 3 |

Link | Finite Element Method | Module 7 - Lecture 1 |

Link | Finite Element Method | Module 7 - Lecture 2 |

Link | Finite Element Method | Module 7 - Lecture 3 |

Link | Finite Element Method | Module 7 - Lecture 4 |

Link | Finite Element Method | Module 8 - Lecture 1 |

Link | Finite Element Method | Module 8 - Lecture 2 |

Link | Finite Element Method | Module 8 - Lecture 3 |

Link | Finite Element Method | Module 9 - Lecture 1 |

Link | Finite Element Method | Module 9 - Lecture 2 |

Link | Finite Element Method | Module 9 - Lecture 3 |

Link | Finite Element Method | Module 10 - Lecture 1 |

Link | Finite Element Method | Module 10 - Lecture 2 |

Link | Finite Element Method | Module 11 - Lecture 1 |

Link | Finite Element Method | Module 11 - Lecture 2 |

Link | Finite Element Method | Module 12 - Lecture 1 |

Link | Finite Element Method | Module 13 - Lecture 1 |

Link | Finite Element Method | Module 13 - Lecture 2 |

Link | Finite Element Method | Module 14 - Lecture 1 |

Link | Finite Element Method | Module 14 - Lecture 2 |

Link | Kinematics of Machines | Module 1 - Lecture 1 |

Link | Kinematics of Machines | Module 1 - Lecture 2 |

Link | Kinematics of Machines | Module 1 - Lecture 3 |

Link | Kinematics of Machines | Module 2 - Lecture 1 |

Link | Kinematics of Machines | Module 2 - Lecture 2 |

Link | Kinematics of Machines | Module 2 - Lecture 3 |

Link | Kinematics of Machines | Module 3 - Lecture 1 |

Link | Kinematics of Machines | Module 3 - Lecture 2 |

Link | Kinematics of Machines | Module 3 - Lecture 3 |

Link | Kinematics of Machines | Module 3 - Lecture 4 |

Link | Kinematics of Machines | Module 4 - Lecture 1 |

Link | Kinematics of Machines | Module 4 - Lecture 2 |

Link | Kinematics of Machines | Module 5 - Lecture 1 |

Link | Kinematics of Machines | Module 5 - Lecture 2 |

Link | Kinematics of Machines | Module 5 - Lecture 3 |

Link | Kinematics of Machines | Module 6 - Lecture 1 |

Link | Kinematics of Machines | Module 6 - Lecture 2 |

Link | Kinematics of Machines | Module 6 - Lecture 3 |

Link | Kinematics of Machines | Module 7 - Lecture 1 |

Link | Kinematics of Machines | Module 7 - Lecture 2 |

Link | Kinematics of Machines | Module 7 - Lecture 3 |

Link | Kinematics of Machines | Module 8 - Lecture 1 |

Link | Kinematics of Machines | Module 8 - Lecture 2 |

Link | Kinematics of Machines | Module 9 - Lecture 1 |

Link | Kinematics of Machines | Module 9 - Lecture 2 |

Link | Kinematics of Machines | Module 9 - Lecture 3 |

Link | Kinematics of Machines | Module 9 - Lecture 4 |

Link | Kinematics of Machines | Module 10 - Lecture 1 |

Link | Kinematics of Machines | Module 10 - Lecture 2 |

Link | Kinematics of Machines | Module 10 - Lecture 3 |

Link | Kinematics of Machines | Module 11 - Lecture 1 |

Link | Kinematics of Machines | Module 11 - Lecture 2 |

Link | Kinematics of Machines | Module 11 - Lecture 3 |

Link | Kinematics of Machines | Module 12 - Lecture 1 |

Link | Kinematics of Machines | Module 12 - Lecture 2 |

Link | Kinematics of Machines | Module 12 - Lecture 3 |

Link | Kinematics of Machines | Module 13 - Lecture 1 |

Link | Kinematics of Machines | Module 13 - Lecture 2 |

Link | Kinematics of Machines | Module 13 - Lecture 3 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 1 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 2 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 3 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 4 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 5 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 6 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 7 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 8 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 9 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 10 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 11 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 12 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 13 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 14 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 15 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 16 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 17 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 18 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 19 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 20 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 21 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 22 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 23 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 24 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 25 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 26 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 27 |

Link | Advanced manufacturing process for micro sytem fabrication | Lecture 28 |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 1 - Advanced manufacturing process for micro sytem fabrication |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 2 - EDM Micro Machening |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 3 - EDM Micro Drilling |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 4 - Laser Machening Process |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 5 - Vaccume Assisted Forming |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 6 - Vaccume Forming |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 7 - Photolithiography |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 8 - Replication part 1 |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 9 - Replication part 2 |

Link | Advanced manufacturing process for micro sytem fabrication | Lab session 10 - PCB Making |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 1 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 2 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 3 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 4 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 5 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 6 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 7 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 8 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 9 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 10 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 11 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 12 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 13 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 14 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 15 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 16 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 17 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 18 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 19 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 20 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 21 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 22 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 23 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 24 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 25 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 26 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 27 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lecture 28 - Technical Arts 101 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 1 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 2 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 3 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 4 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 5 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 6 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 7 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 8 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 9 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 10 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 11 |

Link | Engineering Drawing (Dr. Anupam Saxena) | Lab Session 12 |

Link | NOC:BioMEMS and Microsystems | Lecture 1 - Lecture 1 |

Link | NOC:BioMEMS and Microsystems | Lecture 2 - Lecture 2 |

Link | NOC:BioMEMS and Microsystems | Lecture 3 - Lecture 3 |

Link | NOC:BioMEMS and Microsystems | Lecture 4 - Review Lecture 1,2,3 |

Link | NOC:BioMEMS and Microsystems | Lecture 5 - Lecture 4 |

Link | NOC:BioMEMS and Microsystems | Lecture 6 - Lecture 5 |

Link | NOC:BioMEMS and Microsystems | Lecture 7 - Lecture 6 |

Link | NOC:BioMEMS and Microsystems | Lecture 8 - Review Lecture 4,5,6 |

Link | NOC:BioMEMS and Microsystems | Lecture 9 - Lecture 7 |

Link | NOC:BioMEMS and Microsystems | Lecture 10 - Lecture 8 |

Link | NOC:BioMEMS and Microsystems | Lecture 11 - Lecture 9-10 |

Link | NOC:BioMEMS and Microsystems | Lecture 12 - Lecture-11 |

Link | NOC:BioMEMS and Microsystems | Lecture 13 - Lecture-12 |

Link | NOC:BioMEMS and Microsystems | Lecture 14 - Lecture-13 |

Link | NOC:BioMEMS and Microsystems | Lecture 15 - Lecture-14 |

Link | NOC:BioMEMS and Microsystems | Lecture 16 - Lecture-15 |

Link | NOC:BioMEMS and Microsystems | Lecture 17 - Lecture-16 |

Link | NOC:BioMEMS and Microsystems | Lecture 18 - Lecture-17 |

Link | NOC:BioMEMS and Microsystems | Lecture 19 - Lecture-18 |

Link | NOC:BioMEMS and Microsystems | Lecture 20 - Lecture-19 |

Link | NOC:BioMEMS and Microsystems | Lecture 21 - Review Lecture 7 to 10 |

Link | NOC:BioMEMS and Microsystems | Lecture 22 - Review Lecture 11 to 13 |

Link | NOC:BioMEMS and Microsystems | Lecture 23 - Review Lecture 14 to 16 |

Link | NOC:BioMEMS and Microsystems | Lecture 24 - Lecture-20 |

Link | NOC:BioMEMS and Microsystems | Lecture 25 - Lecture-21 |

Link | NOC:BioMEMS and Microsystems | Lecture 26 - Lecture-22 |

Link | NOC:BioMEMS and Microsystems | Lecture 27 - Lecture-23 |

Link | NOC:BioMEMS and Microsystems | Lecture 28 - Lecture-24 |

Link | NOC:BioMEMS and Microsystems | Lecture 29 - Lecture-25 |

Link | NOC:BioMEMS and Microsystems | Lecture 30 - Review Lecture 17,18,19 |

Link | NOC:BioMEMS and Microsystems | Lecture 31 - Review Lecture 20,21,22 |

Link | NOC:BioMEMS and Microsystems | Lecture 32 - Lecture-26 |

Link | NOC:BioMEMS and Microsystems | Lecture 33 - Lecture-27 |

Link | NOC:BioMEMS and Microsystems | Lecture 34 - Lecture-28 |

Link | NOC:BioMEMS and Microsystems | Lecture 35 - Lecture-29 |

Link | NOC:BioMEMS and Microsystems | Lecture 36 - Lecture-30 |

Link | NOC:BioMEMS and Microsystems | Lecture 37 - Lecture-31 |

Link | NOC:BioMEMS and Microsystems | Lecture 38 - Lecture-32 |

Link | NOC:BioMEMS and Microsystems | Lecture 39 - Lecture-33 |

Link | NOC:BioMEMS and Microsystems | Lecture 40 - Review lecture 23,24,25 |

Link | NOC:BioMEMS and Microsystems | Lecture 41 - Review lecture 26,27,28 |

Link | NOC:BioMEMS and Microsystems | Lecture 42 - Review lecture 29 to 33 |

Link | NOC:Manufacturing Systems Technology | Lecture 1 |

Link | NOC:Manufacturing Systems Technology | Lecture 2 |

Link | NOC:Manufacturing Systems Technology | Lecture 3 |

Link | NOC:Manufacturing Systems Technology | Lecture 4 |

Link | NOC:Manufacturing Systems Technology | Lecture 5 |

Link | NOC:Manufacturing Systems Technology | Lecture 6 |

Link | NOC:Manufacturing Systems Technology | Lecture 7 |

Link | NOC:Manufacturing Systems Technology | Lecture 8 |

Link | NOC:Manufacturing Systems Technology | Lecture 9 |

Link | NOC:Manufacturing Systems Technology | Lecture 10 |

Link | NOC:Manufacturing Systems Technology | Lecture 11 |

Link | NOC:Manufacturing Systems Technology | Lecture 12 |

Link | NOC:Manufacturing Systems Technology | Lecture 13 |

Link | NOC:Manufacturing Systems Technology | Lecture 14 |

Link | NOC:Manufacturing Systems Technology | Lecture 15 |

Link | NOC:Manufacturing Systems Technology | Lecture 16 |

Link | NOC:Manufacturing Systems Technology | Lecture 17 |

Link | NOC:Manufacturing Systems Technology | Lecture 18 |

Link | NOC:Manufacturing Systems Technology | Lecture 19 |

Link | NOC:Manufacturing Systems Technology | Lecture 20 |

Link | NOC:Manufacturing Systems Technology | Lecture 21 |

Link | NOC:Manufacturing Systems Technology | Lecture 22 |

Link | NOC:Manufacturing Systems Technology | Lecture 23 |

Link | NOC:Manufacturing Systems Technology | Lecture 24 |

Link | NOC:Manufacturing Systems Technology | Lecture 25 |

Link | NOC:Manufacturing Systems Technology | Lecture 26 |

Link | NOC:Manufacturing Systems Technology | Lecture 27 |

Link | NOC:Manufacturing Systems Technology | Lecture 28 |

Link | NOC:Manufacturing Systems Technology | Lecture 29 |

Link | NOC:Manufacturing Systems Technology | Lecture 30 |

Link | NOC:Manufacturing Systems Technology | Lecture 31 |

Link | NOC:Manufacturing Systems Technology | Lecture 32 |

Link | NOC:Manufacturing Systems Technology | Lecture 33 |

Link | NOC:Manufacturing Systems Technology | Lecture 34 |

Link | NOC:Manufacturing Systems Technology | Lecture 35 |

Link | NOC:Manufacturing Systems Technology | Lecture 36 |

Link | NOC:Manufacturing Systems Technology | Lecture 37 |

Link | NOC:Manufacturing Systems Technology | Lecture 38 |

Link | NOC:Manufacturing Systems Technology | Lecture 39 |

Link | NOC:Manufacturing Systems Technology | Lecture 40 |

Link | NOC:Manufacturing Systems Technology | Lecture 41 |

Link | NOC:Manufacturing Systems Technology | Lecture 42 |

Link | NOC:Manufacturing Systems Technology | Lecture 43 |

Link | NOC:Manufacturing Systems Technology | Lecture 44 |

Link | NOC:Manufacturing Systems Technology | Lecture 45 |

Link | NOC:Manufacturing Systems Technology | Lecture 46 |

Link | NOC:Manufacturing Systems Technology | Lecture 47 |

Link | NOC:Manufacturing Systems Technology | Lecture 48 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 1 - Introduction to Quality Engineering |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 2 - Quality Costs |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 3 - Product Design |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 4 - Design of Experiments |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 5 - Applications of Quality Loss Function |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 6 - Product Selection Strategies |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 7 - Robust Design Approaches |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 8 - Taguchi's Method |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 9 - Failure mode and effects analysis |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 10 - Problem Solving : Failure mode and effects analysis - 1 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 11 - Problem solving : Failure mode and effects analysis - 2 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 12 - Product quality improvement methods |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 13 - Quality tools - Part 1 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 14 - Quality Tools - Part 2 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 15 - Different types of control charts |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 16 - Mean, Variance and Standard deviation |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 17 - X bar chart, R-chart |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 18 - Plotting methods for control charts |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 19 - Six Sigma - Part 1 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 20 - Six Sigma - Part 2 |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 21 - Theory of probability |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 22 - Determining the defective products using Probability |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 23 - Sampling based on Permutations and Combinations |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 24 - Bionomial distribution |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 25 - Poisson distribution |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 26 - Poisson distribution |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 27 - Normal Distribution |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 28 - Overview of control charts and different types of distribution |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 29 - Fundamental of Robotics and its applications in Automated Systems |

Link | NOC:Manufacturing Systems Technology - Part II | Lecture 30 - Joint configuration systems of Robot |

Link | NOC:Basics of Finite Element Analysis | Lecture 1 - Introduction to Finite Element Analysis(FEA) |

Link | NOC:Basics of Finite Element Analysis | Lecture 2 - Introduction of FEA, Nodes, Elements and Shape Functions |

Link | NOC:Basics of Finite Element Analysis | Lecture 3 - Nodes, Elements and Shape Functions |

Link | NOC:Basics of Finite Element Analysis | Lecture 4 - Polynomials as Shape Functions, Weighted Residuals, Elements and Assembly Level Equations |

Link | NOC:Basics of Finite Element Analysis | Lecture 5 - Types of Errors in FEA, Overall FEA Process and Convergence |

Link | NOC:Basics of Finite Element Analysis | Lecture 6 - Strengths of FE Method, Continuity conditions at Interfaces |

Link | NOC:Basics of Finite Element Analysis | Lecture 7 - Key concepts and terminologies |

Link | NOC:Basics of Finite Element Analysis | Lecture 8 - Weighted integral statements |

Link | NOC:Basics of Finite Element Analysis | Lecture 9 - Integration by parts - Review |

Link | NOC:Basics of Finite Element Analysis | Lecture 10 - Gradient and Divergence Theorems-Part - I |

Link | NOC:Basics of Finite Element Analysis | Lecture 11 - Gradient and Divergence Theorems Part - II |

Link | NOC:Basics of Finite Element Analysis | Lecture 12 - Functionals |

Link | NOC:Basics of Finite Element Analysis | Lecture 13 - Variational Operator |

Link | NOC:Basics of Finite Element Analysis | Lecture 14 - Weighted Integral and Weak Formulation |

Link | NOC:Basics of Finite Element Analysis | Lecture 15 - Weak Formulation |

Link | NOC:Basics of Finite Element Analysis | Lecture 16 - Weak Formulation and Weighted Integral : Principle of minimum potential energy |

Link | NOC:Basics of Finite Element Analysis | Lecture 17 - Variational Methods : Rayleigh Ritz Method |

Link | NOC:Basics of Finite Element Analysis | Lecture 18 - Rayleigh Ritz Method |

Link | NOC:Basics of Finite Element Analysis | Lecture 19 - Method of Weighted Residuals |

Link | NOC:Basics of Finite Element Analysis | Lecture 20 - Different types of Weighted Residual Methods - Part I |

Link | NOC:Basics of Finite Element Analysis | Lecture 21 - Different types of Weighted Residual Methods - Part II |

Link | NOC:Basics of Finite Element Analysis | Lecture 22 - FEA formulation for 2nd order BVP - Part I |

Link | NOC:Basics of Finite Element Analysis | Lecture 23 - FEA formulation for 2nd order BVP - Part II |

Link | NOC:Basics of Finite Element Analysis | Lecture 24 - Element Level Equations |

Link | NOC:Basics of Finite Element Analysis | Lecture 25 - 2nd Order Boundary Value Problem |

Link | NOC:Basics of Finite Element Analysis | Lecture 26 - Assembly of element equations |

Link | NOC:Basics of Finite Element Analysis | Lecture 27 - Assembly of element equations and implementation of boundary conditions |

Link | NOC:Basics of Finite Element Analysis | Lecture 28 - Assembly process and the connectivity matrix |

Link | NOC:Basics of Finite Element Analysis | Lecture 29 - Radially Symmetric Problems |

Link | NOC:Basics of Finite Element Analysis | Lecture 30 - One dimensional heat transfer |

Link | NOC:Basics of Finite Element Analysis | Lecture 31 - 1D-Heat conduction with convective effects : examples |

Link | NOC:Basics of Finite Element Analysis | Lecture 32 - Euler-Bernoulli beam |

Link | NOC:Basics of Finite Element Analysis | Lecture 33 - Interpolation functions for Euler-Bernoulli beam |

Link | NOC:Basics of Finite Element Analysis | Lecture 34 - Finite element equations for Euler-Bernoulli beam |

Link | NOC:Basics of Finite Element Analysis | Lecture 35 - Assembly equations for Euler-Bernoulli beam |

Link | NOC:Basics of Finite Element Analysis | Lecture 36 - Boundary conditions for Euler-Bernoulli beam |

Link | NOC:Basics of Finite Element Analysis | Lecture 37 - Shear deformable beams |

Link | NOC:Basics of Finite Element Analysis | Lecture 38 - Finite element formulation for shear deformable beams : Part - I |

Link | NOC:Basics of Finite Element Analysis | Lecture 39 - Finite element formulation for shear deformable beams : Part - II |

Link | NOC:Basics of Finite Element Analysis | Lecture 40 - Equal interpolation but reduced integration element |

Link | NOC:Basics of Finite Element Analysis | Lecture 41 - Eigenvalue problems |

Link | NOC:Basics of Finite Element Analysis | Lecture 42 - Eigenvalue problems : examples |

Link | NOC:Basics of Finite Element Analysis | Lecture 43 - Introduction to time dependent problems |

Link | NOC:Basics of Finite Element Analysis | Lecture 44 - Spatial approximation |

Link | NOC:Basics of Finite Element Analysis | Lecture 45 - Temporal approximation for parabolic problems : Part - I |

Link | NOC:Basics of Finite Element Analysis | Lecture 46 - Temporal approximation for parabolic problems : Part - II |

Link | NOC:Basics of Finite Element Analysis | Lecture 47 - Temporal approximation for hyperbolic problems |

Link | NOC:Basics of Finite Element Analysis | Lecture 48 - Explicit and implicit method, diagonalization of mass matrix, closure |

Link | NOC:Basics of Noise and Its Measurements | Lecture 1 - Introduction |

Link | NOC:Basics of Noise and Its Measurements | Lecture 2 - Vibration versus Waves |

Link | NOC:Basics of Noise and Its Measurements | Lecture 3 - Nature of Sound |

Link | NOC:Basics of Noise and Its Measurements | Lecture 4 - The Decibel Scale |

Link | NOC:Basics of Noise and Its Measurements | Lecture 5 - Some Key Terms |

Link | NOC:Basics of Noise and Its Measurements | Lecture 6 - Adding Decibels |

Link | NOC:Basics of Noise and Its Measurements | Lecture 7 - Modeling Sound Propagation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 8 - The Momentum Equation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 9 - The Continuity Equation and The Gas Law |

Link | NOC:Basics of Noise and Its Measurements | Lecture 10 - 1-D Wave Equation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 11 - General Solution for 1-D Wave Equation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 12 - Complex Time Signal and Transfer Functions |

Link | NOC:Basics of Noise and Its Measurements | Lecture 13 - Transmission line equations |

Link | NOC:Basics of Noise and Its Measurements | Lecture 14 - Planar Waves in Closed Tubes |

Link | NOC:Basics of Noise and Its Measurements | Lecture 15 - Planar Waves in 1-D Open Tubes |

Link | NOC:Basics of Noise and Its Measurements | Lecture 16 - A Semi-Infinite Tube and Overall Summary |

Link | NOC:Basics of Noise and Its Measurements | Lecture 17 - 1-D Tubes with Imperfect Terminations |

Link | NOC:Basics of Noise and Its Measurements | Lecture 18 - Measuring Impedance Through Kundts Apparatus |

Link | NOC:Basics of Noise and Its Measurements | Lecture 19 - Classification of Microphones |

Link | NOC:Basics of Noise and Its Measurements | Lecture 20 - Classification of Microphones - Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 21 - Classification of Microphones by Application |

Link | NOC:Basics of Noise and Its Measurements | Lecture 22 - Microphone Sensitivity |

Link | NOC:Basics of Noise and Its Measurements | Lecture 23 - Microphone Sensitivity- Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 24 - Selecting the Right Microphone |

Link | NOC:Basics of Noise and Its Measurements | Lecture 25 - Fourier Series Expansion |

Link | NOC:Basics of Noise and Its Measurements | Lecture 26 - Fourier Series Expansion - Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 27 - Fourier Integral |

Link | NOC:Basics of Noise and Its Measurements | Lecture 28 - Fourier Integral - Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 29 - Fourier Transform |

Link | NOC:Basics of Noise and Its Measurements | Lecture 30 - Fourier Transform - Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 31 - Discrete Fourier Transform (DFT) |

Link | NOC:Basics of Noise and Its Measurements | Lecture 32 - Discrete Fourier Transform (DFT) - Continuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 33 - DFT - Calculating Frequencies and Padding |

Link | NOC:Basics of Noise and Its Measurements | Lecture 34 - DFT - Influence of Duration and Sampling frequency on resolution |

Link | NOC:Basics of Noise and Its Measurements | Lecture 35 - FFT and Inverse FFT |

Link | NOC:Basics of Noise and Its Measurements | Lecture 36 - Considerations while deciding instrumentation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 37 - Considerations while selecting instruments for noise measurements |

Link | NOC:Basics of Noise and Its Measurements | Lecture 38 - Measuring impedance through two microphone method |

Link | NOC:Basics of Noise and Its Measurements | Lecture 39 - Designing an impedance measurement tube |

Link | NOC:Basics of Noise and Its Measurements | Lecture 40 - Octave band analysis |

Link | NOC:Basics of Noise and Its Measurements | Lecture 41 - Calculating results in octave bands |

Link | NOC:Basics of Noise and Its Measurements | Lecture 42 - Weighting |

Link | NOC:Basics of Noise and Its Measurements | Lecture 43 - Short time Fourier transforms (STFT) |

Link | NOC:Basics of Noise and Its Measurements | Lecture 44 - Spectrograms |

Link | NOC:Basics of Noise and Its Measurements | Lecture 45 - Reverberation time |

Link | NOC:Basics of Noise and Its Measurements | Lecture 46 - Anechoic rooms |

Link | NOC:Basics of Noise and Its Measurements | Lecture 47 - STC, NRC and sound attenuation |

Link | NOC:Basics of Noise and Its Measurements | Lecture 48 - Reverberant rooms |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 1 - Introduction to Manufacturing Process Tecnology |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 2 - Structure of Matter (Bonding of Solids,Crystal Structures) |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 3 - Brief introduction of non-conventional machining processes |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 4 - Structure of matters (bonding of solids, crystal structures) |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 5 - Elastic and Plastic Deformation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 6 - Crystal imperfaction and dislocation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 7 - Plastic Deformation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 8 - Material Properties, Stress Strain Diagram for differnt types of materials |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 9 - Friction and Wear, Solid solutions |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 10 - Equilibrium Phase Diagram |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 11 - Iron-carbon equilibrium phase diagram |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 12 - Control of material properties (Alloying and heat treatment), Mechanical properties and Recrystallization |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 13 - Introduction To Casting Process |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 14 - Pattern and Mold Design |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 15 - Mold Making Procedures |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 16 - Fundamentals of Melting and Furnaces & Pouring and Gating Design |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 17 - Vertical and Bottom Gating Systems Edit Lesson |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 18 - Numerical Estimation To Find Mold Filling Time and Mold Design |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 19 - Effects of friction and velocity distribution in time of filling |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 20 - Numerical design of gating systems using frictional and bending losses |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 21 - Principle of cooling and solidification in single and multiphase systems |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 22 - Estimation of rate of solidification |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 23 - Principles of cooling and solidification of casting |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 24 - Modeling of Solidification Rates of Thin Casting in a Metal Mold |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 25 - Solidification with Predominant Interface Resistance |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 26 - Solidification with Constant Casting Surface Temperature |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 27 - Solidification of Casting with Predominant Resistance in Mold and Solidified Metal |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 28 - Solidification Time for Permanent Mold Casting |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 29 - Solidification with Constant Casting Surface |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 30 - Riser Design and Placement - Part 1 |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 31 - Riser Design and Placement - Part 2 |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 32 - Riser Design and Placement - Part 3 |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 33 - Introduction of Machining Processes |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 34 - Review of Basic Machining Processes and the Mechanics of Chip Formation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 35 - Estimation of Cutting Ratio and Shear Angle |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 36 - Merchant's Force Analysis |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 37 - Merchant Theory (Cutting Forces Analysis) |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 38 - Merchant Theory (Force analysis) Part-2 |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 39 - Lee Shaffer's Solution |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 40 - Specific Energy Model for Cutting |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 41 - Modeling of Heat Generation and Cutting Tool Temperature |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 42 - Temperature in Cutting and Builtup Edge Formation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 43 - Metal Cutting Operation |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 44 - Tool life and Tool wear |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 45 - Economics of Machining |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 46 - Joining Process |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 47 - Principle of Solid State Welding |

Link | NOC:Manufacturing Process Technology - Part I | Lecture 48 - Numerical Design of Welding Power Sources in Arc Welding |

Link | NOC:Nature and Property of Materials | Lecture 1 - History and Evolution of Materials |

Link | NOC:Nature and Property of Materials | Lecture 2 - Classification of Materials |

Link | NOC:Nature and Property of Materials | Lecture 3 - Advanced and Exotic Materials |

Link | NOC:Nature and Property of Materials | Lecture 4 - Mechanical Properties of Materials - I |

Link | NOC:Nature and Property of Materials | Lecture 5 - Mechanical Properties of Materials - II |

Link | NOC:Nature and Property of Materials | Lecture 6 - Mechanical Properties of Materials - III |

Link | NOC:Nature and Property of Materials | Lecture 7 - Bonding between atoms |

Link | NOC:Nature and Property of Materials | Lecture 8 - The Role of Crystal Structure - I |

Link | NOC:Nature and Property of Materials | Lecture 9 - The Role of Crystal Structure - II |

Link | NOC:Nature and Property of Materials | Lecture 10 - The Role of Crystal Structure - III |

Link | NOC:Nature and Property of Materials | Lecture 11 - Metals - I (Ferrous alloys) |

Link | NOC:Nature and Property of Materials | Lecture 12 - Metals - II (Non-Ferrous alloys) |

Link | NOC:Nature and Property of Materials | Lecture 13 - Metals - III (Strengthening and Degradation) |

Link | NOC:Nature and Property of Materials | Lecture 14 - Ceramics - I |

Link | NOC:Nature and Property of Materials | Lecture 15 - Ceramics - II |

Link | NOC:Nature and Property of Materials | Lecture 16 - Polymers : Introduction and Classification |

Link | NOC:Nature and Property of Materials | Lecture 17 - Polymeric Structure |

Link | NOC:Nature and Property of Materials | Lecture 18 - Effects of Glass transition temperature |

Link | NOC:Nature and Property of Materials | Lecture 19 - Polymer Mechanical properties |

Link | NOC:Nature and Property of Materials | Lecture 20 - Composites - I |

Link | NOC:Nature and Property of Materials | Lecture 21 - Composites - II |

Link | NOC:Nature and Property of Materials | Lecture 22 - Composites - III |

Link | NOC:Nature and Property of Materials | Lecture 23 - Smart Materials - I (Introduction) |

Link | NOC:Nature and Property of Materials | Lecture 24 - Smart Materials - II (Piezoelectricity) |

Link | NOC:Nature and Property of Materials | Lecture 25 - Smart Materials - III (Magnetostriction) |

Link | NOC:Nature and Property of Materials | Lecture 26 - Smart Materials - IV (Smart Polymers) |

Link | NOC:Nature and Property of Materials | Lecture 27 - Smart Materials - V (SMA) |

Link | NOC:Nature and Property of Materials | Lecture 28 - Materials Selection in Engineering Design |

Link | NOC:Nature and Property of Materials | Lecture 29 - Numerical: Cantilever beam (High stiffness and light weight) |

Link | NOC:Nature and Property of Materials | Lecture 30 - Numerical: Cantilever beam (High strength and light weight) |

Link | NOC:Nature and Property of Materials | Lecture 31 - Numerical: Connecting rod |

Link | NOC:Nature and Property of Materials | Lecture 32 - Numerical: Probe for scanning probe microscope |

Link | NOC:Nature and Property of Materials | Lecture 33 - Optical Properties |

Link | NOC:Nature and Property of Materials | Lecture 34 - Optical Fiber |

Link | NOC:Nature and Property of Materials | Lecture 35 - Thermal Properties |

Link | NOC:Nature and Property of Materials | Lecture 36 - Numerical: Material selection for Heat exchanger |

Link | NOC:Nature and Property of Materials | Lecture 37 - Electric Properties - I |

Link | NOC:Nature and Property of Materials | Lecture 38 - Electric Properties - II |

Link | NOC:Nature and Property of Materials | Lecture 39 - Magnetic Properties |

Link | NOC:Nature and Property of Materials | Lecture 40 - Laboratory demonstration |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 1 - Introduction to Advanced Machining Processes |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 2 - Classification of Machining Processes |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 3 - Silicon growth and Crystallography |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 4 - Micro Fabrication Technology |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 5 - Photolithography |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 6 - Soft Lithography |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 7 - Introduction to Wet Etching Techniques |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 8 - Introduction to Dry Etching Techniques |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 9 - Introduction of Additive Techniques |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 10 - Introduction to Abrasive Jet Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 11 - Ultrasonic Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 12 - Determination of MRR of Ultrasonic Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 13 - Mechanics of Ultrasonic Machining (USM) |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 14 - Effect of Process parameters of USM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 15 - Ultrasonic Machining Unit |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 16 - Electrochemical Machining Processes (ECM) |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 17 - Material Removal Rate of ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 18 - Electrode Double Layer |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 19 - Material removal rate of an alloy in ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 20 - Kinematics and Dynamics of ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 21 - Temperature and Pressure rise during ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 22 - Determination of Electrolyte flow velocity in ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 23 - Effect of heat and Hydrogen bubble generation during ECM Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 24 - Theoretical determination of Tool shape |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 25 - Design for Electrolyte flow in ECM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 26 - Introductions of Electro-chemical Drilling Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 27 - Introduction to Finishing Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 28 - Electric Discharge Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 29 - EDM part-2 |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 30 - Effect of various process parameters on EDM process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 31 - Analysis of RC circuit for EDM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 32 - Electrodischarge machining sytem |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 33 - Effect of various parameters on EDM Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 34 - Tool Electrodes and Dielectric fluids and Electron Beam Machining |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 35 - Mechanics of Electron Beam Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 36 - Functional Characteristics of EBM Process Edit Lesson |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 37 - Introduction of Laser Beam Machining Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 38 - Material removal rate of LBM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 39 - Heat conduction and Temperature rise during LBM |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 40 - Modelling of LBM processes |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 41 - Metal forming Processes Edit Lesson |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 42 - Yield Criterion used in Metal Forming Processes Edit Lesson |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 43 - Concept of Principal stress, strain |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 44 - Trescas' Yield criteria and Rolling Process |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 45 - Rolling Processes - Part 1 |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 46 - Rolling Processes - Part 2 |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 47 - Additive Manufacturing Processes |

Link | NOC:Manufacturing Process Technology - Part II | Lecture 48 - Fused Deposition Modeling Process |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 1 - Overview of the Course |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 2 - Fundamental principles |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 3 - Steps followed in FEA |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 4 - Weak Formulation |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 5 - Weak Formulation : Example Problem |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 6 - Assembling element level equations |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 7 - Errors in FEA Solution |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 8 - Measures of Errors in FEA Solution |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 9 - Convergence and Accuracy of Solution - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 10 - Convergence and Accuracy of Solution - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 11 - Convergence - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 12 - Convergence - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 13 - Numerical Integration Schemes - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 14 - Numerical Integration Schemes - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 15 - Approximations - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 16 - Approximations - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 17 - Approximations - Part III |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 18 - Gauss Quadrature |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 19 - Gaussian Quadrature review |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 20 - Gaussian Quadrature - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 21 - Gaussian Quadrature - Part III |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 22 - Newton-Cotes Quadrature |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 23 - Two dimensional FEM problem |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 24 - Two dimensional one variable FEM problem |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 25 - 2D Finite element problems with single variable (Model equation) |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 26 - 2D Finite element problems with single variable (Weak formulation) |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 27 - Elemental level 2D finite element equations |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 28 - Interpolation functions for 2D finite element problems |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 29 - Interpolation functions for linear triangular elements - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 30 - Interpolation functions for linear triangular elements - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 31 - Interpolation functions for Triangular and Rectangular elements |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 32 - Evaluation of Stiffness and Force matrices |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 33 - Stiffness and Force matrices for Triangular element |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 34 - Stiffness and Force matrices for Rectangular element |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 35 - Boundary elements for Finite element Equations |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 36 - Boundary integrals for Triangular element |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 37 - Assembly of 2-D finite elements - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 38 - Assembly of 2-D finite elements - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 39 - 2-D Heat transfer problems - Part I |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 40 - 2-D Heat transfer problems - Part II |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 41 - Numerical integration schemes for 2-D problems |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 42 - Jacobian and transformation matrix for 2-D problems |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 43 - Numerical Integration Schemes for 2-D Problems : Closure |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 44 - Post-processing |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 45 - Plane Elasticity Problems |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 46 - Plane Elasticity Problems : Development of Weak form |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 47 - Plane Elasticity Problems : Element level equations |

Link | NOC:Basics of Finite Element Analysis - II | Lecture 48 - Plane Elasticity Problems : Closure |

Link | NOC:Principles of Vibration Control | Lecture 1 - Introduction to Vibration control |

Link | NOC:Principles of Vibration Control | Lecture 2 - Strategies and Steps in Vibration Control |

Link | NOC:Principles of Vibration Control | Lecture 3 - Strategies, Active control, Detuning and Decoupling |

Link | NOC:Principles of Vibration Control | Lecture 4 - Viscous damping model |

Link | NOC:Principles of Vibration Control | Lecture 5 - Coulomb and Hysteretic damping model |

Link | NOC:Principles of Vibration Control | Lecture 6 - Energy Dissipation in Structural Materials |

Link | NOC:Principles of Vibration Control | Lecture 7 - Material Selection Criterion against Damping |

Link | NOC:Principles of Vibration Control | Lecture 8 - Design for Enhanced Material Damping |

Link | NOC:Principles of Vibration Control | Lecture 9 - Linear Viscoelastic Materials and Models |

Link | NOC:Principles of Vibration Control | Lecture 10 - Maxwell and 3-Parameter Models |

Link | NOC:Principles of Vibration Control | Lecture 11 - Complex modulus and Applications of VEM |

Link | NOC:Principles of Vibration Control | Lecture 12 - Basics of Dynamic Vibration Absorber |

Link | NOC:Principles of Vibration Control | Lecture 13 - Modelling of Dynamic Vibration Absorber |

Link | NOC:Principles of Vibration Control | Lecture 14 - Proof mass Actuator |

Link | NOC:Principles of Vibration Control | Lecture 15 - Springs for Vibration Isolation |

Link | NOC:Principles of Vibration Control | Lecture 16 - Introduction to Active Vibration Control |

Link | NOC:Principles of Vibration Control | Lecture 17 - Basics of Classical Control System |

Link | NOC:Principles of Vibration Control | Lecture 18 - Basics of State Space Control |

Link | NOC:Principles of Vibration Control | Lecture 19 - Controllability and Observability of System |

Link | NOC:Principles of Vibration Control | Lecture 20 - Full State Feedback Control |

Link | NOC:Principles of Vibration Control | Lecture 21 - SMSS Laboratory Demonstration |

Link | NOC:Fundamentals of Acoustics | Lecture 1 - Lesson 1 - Course Overview |

Link | NOC:Fundamentals of Acoustics | Lecture 2 - Lesson 2 - Introduction |

Link | NOC:Fundamentals of Acoustics | Lecture 3 - Lesson 3 - Nature Of Sound |

Link | NOC:Fundamentals of Acoustics | Lecture 4 - Lesson 4 - The Decibel scale |

Link | NOC:Fundamentals of Acoustics | Lecture 5 - Lesson 5 - Key Terms In Acoustics |

Link | NOC:Fundamentals of Acoustics | Lecture 6 - Lesson 6 - Adding Decibels |

Link | NOC:Fundamentals of Acoustics | Lecture 7 - Lesson 1 - Important Mathematical Concepts-Complex Algebra |

Link | NOC:Fundamentals of Acoustics | Lecture 8 - Lesson 2 - Important Mathematical Concepts-Complex Time Signals |

Link | NOC:Fundamentals of Acoustics | Lecture 9 - Lesson 3 - Important Mathematical Concepts-Transfer Function |

Link | NOC:Fundamentals of Acoustics | Lecture 10 - Lesson 4 - Important Mathematical Concepts-Pole Zero Plot |

Link | NOC:Fundamentals of Acoustics | Lecture 11 - Lesson 5 - Important Mathematical Concepts - Bode Plot For Simple Pole |

Link | NOC:Fundamentals of Acoustics | Lecture 12 - Lesson 6 - Important Mathematical Concepts - Bode Plot For Simple Zero |

Link | NOC:Fundamentals of Acoustics | Lecture 13 - Lesson 1 - Bode Plots (Magnitude) for Complex Transfer Functions |

Link | NOC:Fundamentals of Acoustics | Lecture 14 - Lesson 2 - Momentum Equation for 1-D Sound Propagation |

Link | NOC:Fundamentals of Acoustics | Lecture 15 - Lesson 3 - Continuity Equation for 1-D Sound Propagation |

Link | NOC:Fundamentals of Acoustics | Lecture 16 - Lesson 4 - Gas Law for 1-D Sound Propagation |

Link | NOC:Fundamentals of Acoustics | Lecture 17 - Lesson 5 - 1-D Wave Equation |

Link | NOC:Fundamentals of Acoustics | Lecture 18 - Lesson 6 - Solution for 1-D Wave Equation |

Link | NOC:Fundamentals of Acoustics | Lecture 19 - Lesson 1 - Waveguide |

Link | NOC:Fundamentals of Acoustics | Lecture 20 - Lesson 2 - Transmission Line Equations - Part I |

Link | NOC:Fundamentals of Acoustics | Lecture 21 - Lesson 3 - Transmission Line Equations - Part II |

Link | NOC:Fundamentals of Acoustics | Lecture 22 - Lesson 4 - Transmission Line Equations - Part III |

Link | NOC:Fundamentals of Acoustics | Lecture 23 - Lesson 5 - Transmission Line Equations - Part IV |

Link | NOC:Fundamentals of Acoustics | Lecture 24 - Lesson 6 - Transmission Line Equations - Part V |

Link | NOC:Fundamentals of Acoustics | Lecture 25 - Lesson 1 - Instantaneous Power |

Link | NOC:Fundamentals of Acoustics | Lecture 26 - Lesson 2 - Instantaneous Power in a L-R Circuit |

Link | NOC:Fundamentals of Acoustics | Lecture 27 - Lesson 3 - Power Factor, and Acoustic Power |

Link | NOC:Fundamentals of Acoustics | Lecture 28 - Lesson 4 - Power Flow into an Infinitely Long Tube |

Link | NOC:Fundamentals of Acoustics | Lecture 29 - Lesson 5 - Point Sources of Sound |

Link | NOC:Fundamentals of Acoustics | Lecture 30 - Lesson 6 - Relations for Outward Travelling Spherical Acoustic Wave |

Link | NOC:Fundamentals of Acoustics | Lecture 31 - Lesson 1 - Specific Acoustic Impedance for a Closed Tube |

Link | NOC:Fundamentals of Acoustics | Lecture 32 - Lesson 2 - Specific Acoustic Impedance for an Open Tube and an Infinitely Long Tube |

Link | NOC:Fundamentals of Acoustics | Lecture 33 - Lesson 3 - Specific Acoustic Impedance for a Tube with Imperfect Termination |

Link | NOC:Fundamentals of Acoustics | Lecture 34 - Lesson 4 - Kundts Tube |

Link | NOC:Fundamentals of Acoustics | Lecture 35 - Lesson 5 - Volume Velocity |

Link | NOC:Fundamentals of Acoustics | Lecture 36 - Lesson 6 - Comparison of Impedances for a Radially Propagating Wave and a Planar Wave |

Link | NOC:Fundamentals of Acoustics | Lecture 37 - Lesson 1 - Interference of sound sources - Part I |

Link | NOC:Fundamentals of Acoustics | Lecture 38 - Lesson 2 - Interference of sound sources - Part II |

Link | NOC:Fundamentals of Acoustics | Lecture 39 - Lesson 3 - Interference of sound sources - Part III |

Link | NOC:Fundamentals of Acoustics | Lecture 40 - Lesson 4 - Interference of sound sources - Part IV |

Link | NOC:Fundamentals of Acoustics | Lecture 41 - Lesson 5 - Directivity |

Link | NOC:Fundamentals of Acoustics | Lecture 42 - Lesson 6 - Complex power, pressure and velocity for a spherical source |

Link | NOC:Fundamentals of Acoustics | Lecture 43 - Lesson 1 - Noise reduction - Mass Attenuation Method |

Link | NOC:Fundamentals of Acoustics | Lecture 44 - Lesson 2 - Noise Reduction - Pressure Ratio |

Link | NOC:Fundamentals of Acoustics | Lecture 45 - Lesson 3 - Noise Reduction - Velocity of Wall |

Link | NOC:Fundamentals of Acoustics | Lecture 46 - Lesson 4 - 3 Media Problem - Introduction |

Link | NOC:Fundamentals of Acoustics | Lecture 47 - Lesson 5 - 3 Media Problem - Apply Boundary Conditions |

Link | NOC:Fundamentals of Acoustics | Lecture 48 - Lesson 6 - 3 Media Problem - Special cases |

Link | NOC:Fundamentals of Acoustics | Lecture 49 - Lesson 1 - Mufflers |

Link | NOC:Fundamentals of Acoustics | Lecture 50 - Lesson 2 - Designing of Reactive Mufflers |

Link | NOC:Fundamentals of Acoustics | Lecture 51 - Lesson 3 - Designing of Dissipative Mufflers |

Link | NOC:Fundamentals of Acoustics | Lecture 52 - Lesson 4 - Time and Frequency Domain Representation of a Signal |

Link | NOC:Fundamentals of Acoustics | Lecture 53 - Lesson 5 - Fourier Series |

Link | NOC:Fundamentals of Acoustics | Lecture 54 - Lesson 6 - Fourier Series |

Link | NOC:Fundamentals of Acoustics | Lecture 55 - Lesson 1 - Fourier Transform |

Link | NOC:Fundamentals of Acoustics | Lecture 56 - Lesson 2 - Fourier Transform |

Link | NOC:Fundamentals of Acoustics | Lecture 57 - Lesson 3 - Fourier Transform |

Link | NOC:Fundamentals of Acoustics | Lecture 58 - Lesson 4 - Discrete Fourier Transform (DFT) |

Link | NOC:Fundamentals of Acoustics | Lecture 59 - Lesson 5 - Discrete Fourier Transform (DFT) |

Link | NOC:Fundamentals of Acoustics | Lecture 60 - Lesson 6 - Discrete Fourier Transform (DFT) |

Link | NOC:Fundamentals of Acoustics | Lecture 61 - Lesson 1 - Measuring Sound Signals |

Link | NOC:Fundamentals of Acoustics | Lecture 62 - Lesson 2 - Microphones |

Link | NOC:Fundamentals of Acoustics | Lecture 63 - Lesson 3 - Microphones |

Link | NOC:Fundamentals of Acoustics | Lecture 64 - Lesson 4 - Weighting |

Link | NOC:Fundamentals of Acoustics | Lecture 65 - Lesson 5 - Loudness |

Link | NOC:Fundamentals of Acoustics | Lecture 66 - Lesson 6 - Loudness |

Link | NOC:Fundamentals of Acoustics | Lecture 67 - Lesson 1 - Octave Band Analysis - Part I |

Link | NOC:Fundamentals of Acoustics | Lecture 68 - Lesson 2 - Octave Band Analysis Part II |

Link | NOC:Fundamentals of Acoustics | Lecture 69 - Lesson 3 - Octave Band Analysis Part III |

Link | NOC:Fundamentals of Acoustics | Lecture 70 - Lesson 4 - Reverberation Time |

Link | NOC:Fundamentals of Acoustics | Lecture 71 - Lesson 5 - Calculation of Reverberation Time and Sound Transmission Class (STC) |

Link | NOC:Fundamentals of Acoustics | Lecture 72 - Lesson 6 - Noise Reduction Coefficient (NRC) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 1 - Recap - I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 2 - Recap - II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 3 - Recap - III |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 4 - Determination of Phase Diagram (Experimentally) - I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 5 - Determination of Phase Diagram (Experimentally) - II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 6 - Determination of Phase Diagram (Thermodynamically) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 7 - Effect of pressure on phase transformation temperature and concept of equilibrium between condensed and vapor phase |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 8 - Effect of different parameters on heat treatment and concept of saturation vapor pressure with examples |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 9 - Title: Formation of ideal solid or liquid solution and (G-X) diagrams for ideal solutions (Part-I) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 10 - G-X diagrams (Part- II) and concept of chemical potential (Micro Sign) from G-X diagrams. |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 11 - Concept of common tangent for equilibrium between two phases |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 12 - Expressions for equilibrium of two phases - I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 13 - Expressions for equilibrium of two phases - II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 14 - Expressions for equilibrium of two phases - III |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 15 - Determining nucleation of phases using G-X plot |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 16 - ΔG for nucleation and overall transformation, concepts of solid state transformation including precipitation and Quasi-Chemical Model (QCM) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 17 - Introduction to real solutions and expression of ΔHmix based on the Quasi-Chemical Model (QCM) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 18 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 19 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 20 - Graphical representation of ΔGmix, ΔHmix, and -TΔSmix for real solutions and evolution of eutectic phase diagram from the G-X plots |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 21 - Effect of ΔHmix on determination of phase diagrams (same crystal structure) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 22 - Effect of ΔHmix on determination of phase diagrams (Continued...) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 23 - Importance of phase diagrams |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 24 - Effect of heat treatment on microstructure evolution in steel - I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 25 - Effect of heat treatment on microstructure evolution in steel - II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 26 - Recap of homogeneous and heterogeneous nucleation for solid to solid transformation |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 27 - Nucleation rate and its dependence on T (temp. of interest), ΔT, ΔG v and ΔG* and, introduction to growth kinetics |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 28 - Growth kinetics (Continued...) |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 29 - Growth rate variation with undercooling and kinetics of overall phase transformation |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 30 - Implication of Avrami’s equation with example on excel spreadsheet |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 31 - Experimental verification of Avrami Equation |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 32 - Linear regression (least squares) method to find the value of n and k in Avrami equation |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 33 - In this lecture, method to determine the goodness of fit has been explained. Procedure to estimate the values of n and k from experimental data have also been discussed. |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 34 - Stereology and quantitative metallography - I |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 35 - Stereology and quantitative metallography - II |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 36 - Grain size measurements methods |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 37 - Statistical tools for analysis and reporting of obtained data with examples |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 38 - Evolution of TTT and CCT diagram from f vs. t plots |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 39 - TTT, CCT continue and hardenability of steel |

Link | NOC:Heat Treatment and Surface Hardening - II | Lecture 40 - Importance of heat treatment practices in real life (with examples) |

Link | NOC:Phase Transformation in Materials | Lecture 1 - Brief Introduction |

Link | NOC:Phase Transformation in Materials | Lecture 2 - Define Phase, Equilibrium |

Link | NOC:Phase Transformation in Materials | Lecture 3 - Free Energy, Stability of Phases |

Link | NOC:Phase Transformation in Materials | Lecture 4 - Gibbs Free Energy of Binary Solution |

Link | NOC:Phase Transformation in Materials | Lecture 5 - Ideal Solution and Chemical Potential |

Link | NOC:Phase Transformation in Materials | Lecture 6 - Thermodynamics of solid solutions |

Link | NOC:Phase Transformation in Materials | Lecture 7 - G vs X curves |

Link | NOC:Phase Transformation in Materials | Lecture 8 - Solid solutions: Types |

Link | NOC:Phase Transformation in Materials | Lecture 9 - Heterogeneous phase equilibria |

Link | NOC:Phase Transformation in Materials | Lecture 10 - G vs X curves for eutectic system |

Link | NOC:Phase Transformation in Materials | Lecture 11 - G-X plot for peritectic system |

Link | NOC:Phase Transformation in Materials | Lecture 12 - Effect of temperature of solid solubility, Influence of interfaces on Equilibrium |

Link | NOC:Phase Transformation in Materials | Lecture 13 - Introduction of Diffusion |

Link | NOC:Phase Transformation in Materials | Lecture 14 - Mechanism of Diffusion, Fick's I law |

Link | NOC:Phase Transformation in Materials | Lecture 15 - Fick's II law |

Link | NOC:Phase Transformation in Materials | Lecture 16 - Fick's II law (Continued...), Diffusion and Temperature |

Link | NOC:Phase Transformation in Materials | Lecture 17 - Interfacial Free Energy,Solid/Vapor Interface |

Link | NOC:Phase Transformation in Materials | Lecture 18 - Boundaries in single phase solids |

Link | NOC:Phase Transformation in Materials | Lecture 19 - High angle grain boundaries, Equilibrium in poly-crystalline materials, Interphase interfaces in solids |

Link | NOC:Phase Transformation in Materials | Lecture 20 - Interphase interfaces in solids (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 21 - CSL Boundaries |

Link | NOC:Phase Transformation in Materials | Lecture 22 - Types of Nucleations |

Link | NOC:Phase Transformation in Materials | Lecture 23 - Homogeneous Nucleation |

Link | NOC:Phase Transformation in Materials | Lecture 24 - Homogeneous Nucleation (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 25 - Heterogeneous Nucleation |

Link | NOC:Phase Transformation in Materials | Lecture 26 - Heterogeneous nucleation (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 27 - Growth |

Link | NOC:Phase Transformation in Materials | Lecture 28 - Atomic mechanism of growth |

Link | NOC:Phase Transformation in Materials | Lecture 29 - Dendritic Solidification |

Link | NOC:Phase Transformation in Materials | Lecture 30 - Growth rate for dendrite formation |

Link | NOC:Phase Transformation in Materials | Lecture 31 - Alloy solidification |

Link | NOC:Phase Transformation in Materials | Lecture 32 - Alloy solidification (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 33 - Eutectic: Solidification |

Link | NOC:Phase Transformation in Materials | Lecture 34 - Eutectic: solidification (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 35 - Solidification of casting / ingot |

Link | NOC:Phase Transformation in Materials | Lecture 36 - Precipitation hardenable alloy |

Link | NOC:Phase Transformation in Materials | Lecture 37 - Precipitation age- hardening alloy (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 38 - Age hardening alloy |

Link | NOC:Phase Transformation in Materials | Lecture 39 - Eutectoid transformation |

Link | NOC:Phase Transformation in Materials | Lecture 40 - Eutectoid transformation (Continued....) |

Link | NOC:Phase Transformation in Materials | Lecture 41 - Eutectoid transformation in steel (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 42 - Martensite |

Link | NOC:Phase Transformation in Materials | Lecture 43 - Martensite (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 44 - Martensite (Continued...) and TTT curves |

Link | NOC:Phase Transformation in Materials | Lecture 45 - TTT diagram |

Link | NOC:Phase Transformation in Materials | Lecture 46 - Recovery, Recrystallization and Grain growth |

Link | NOC:Phase Transformation in Materials | Lecture 47 - Recovery |

Link | NOC:Phase Transformation in Materials | Lecture 48 - Recrystallization |

Link | NOC:Phase Transformation in Materials | Lecture 49 - Recrystallization (Continued...) |

Link | NOC:Phase Transformation in Materials | Lecture 50 - Introduction to spinodal decomposition |

Link | NOC:Manufacturing of Composites | Lecture 1 - Introduction to Composites |

Link | NOC:Manufacturing of Composites | Lecture 2 - Matrices |

Link | NOC:Manufacturing of Composites | Lecture 3 - Fiber reinforcements |

Link | NOC:Manufacturing of Composites | Lecture 4 - Fiber reinforcements (Continued...) |

Link | NOC:Manufacturing of Composites | Lecture 5 - Composites properties |

Link | NOC:Manufacturing of Composites | Lecture 6 - Composites testing |

Link | NOC:Manufacturing of Composites | Lecture 7 - Selection of material |

Link | NOC:Manufacturing of Composites | Lecture 8 - Selection of material (Continued...) |

Link | NOC:Manufacturing of Composites | Lecture 9 - Design for Manufacturing |

Link | NOC:Manufacturing of Composites | Lecture 10 - Design for Manufacturing (Continued...) |

Link | NOC:Manufacturing of Composites | Lecture 11 - Composite Manufacturing Processes |

Link | NOC:Manufacturing of Composites | Lecture 12 - Filament winding Processes |

Link | NOC:Manufacturing of Composites | Lecture 13 - Resin transfer moulding |

Link | NOC:Manufacturing of Composites | Lecture 14 - Pultrusion |

Link | NOC:Manufacturing of Composites | Lecture 15 - Compression Moulding Process |

Link | NOC:Manufacturing of Composites | Lecture 16 - Vacuum Impregnation Methods |

Link | NOC:Manufacturing of Composites | Lecture 17 - Stacking of Composites |

Link | NOC:Manufacturing of Composites | Lecture 18 - Thermoplastic Composites Manufacturing Processes - Part 1 |

Link | NOC:Manufacturing of Composites | Lecture 19 - Thermoplastic Composites Manufacturing Processes - Part 2 (Continued...) |

Link | NOC:Manufacturing of Composites | Lecture 20 - Non-destructive testing methods for composite materials |

Link | NOC:Manufacturing of Composites | Lecture 21 - Metal Matrix Composites |

Link | NOC:Manufacturing of Composites | Lecture 22 - Metal Matrix Composites applications (Continued...) |

Link | NOC:Manufacturing of Composites | Lecture 23 - Processing of Metal Matrix Composites - Part 1 |

Link | NOC:Manufacturing of Composites | Lecture 24 - Processing of Metal Matrix Composites - Part 2 |

Link | NOC:Manufacturing of Composites | Lecture 25 - Ceramic Matrix Composites |

Link | NOC:Manufacturing of Composites | Lecture 26 - Fabrication of Ceramic Matrix Composites (CMCs) |

Link | NOC:Manufacturing of Composites | Lecture 27 - Carbon - Carbon Composites |

Link | NOC:Manufacturing of Composites | Lecture 28 - Polymer Matrix and Nano Composites |

Link | NOC:Manufacturing of Composites | Lecture 29 - Machining of Composites |

Link | NOC:Manufacturing of Composites | Lecture 30 - Repair of Composites |

Link | NOC:Manufacturing of Composites | Lecture 31 - Manufacturing Processes: Selection and Considerations |

Link | NOC:Applied Ergonomics | Lecture 1 |

Link | NOC:Applied Ergonomics | Lecture 2 |

Link | NOC:Applied Ergonomics | Lecture 3 |

Link | NOC:Applied Ergonomics | Lecture 4 |

Link | NOC:Applied Ergonomics | Lecture 5 |

Link | NOC:Applied Ergonomics | Lecture 6 |

Link | NOC:Applied Ergonomics | Lecture 7 |

Link | NOC:Applied Ergonomics | Lecture 8 |

Link | NOC:Applied Ergonomics | Lecture 9 |

Link | NOC:Applied Ergonomics | Lecture 10 |

Link | NOC:Applied Ergonomics | Lecture 11 |

Link | NOC:Applied Ergonomics | Lecture 12 |

Link | NOC:Applied Ergonomics | Lecture 13 |

Link | NOC:Applied Ergonomics | Lecture 14 |

Link | NOC:Applied Ergonomics | Lecture 15 |

Link | NOC:Applied Ergonomics | Lecture 16 |

Link | NOC:Applied Ergonomics | Lecture 17 |

Link | NOC:Applied Ergonomics | Lecture 18 |

Link | NOC:Applied Ergonomics | Lecture 19 |

Link | NOC:Applied Ergonomics | Lecture 20 |

Link | NOC:Applied Ergonomics | Lecture 21 |

Link | NOC:Applied Ergonomics | Lecture 22 |

Link | NOC:Applied Ergonomics | Lecture 23 |

Link | NOC:Applied Ergonomics | Lecture 24 |

Link | NOC:Applied Ergonomics | Lecture 25 |

Link | NOC:Applied Ergonomics | Lecture 26 |

Link | NOC:Applied Ergonomics | Lecture 27 |

Link | NOC:Applied Ergonomics | Lecture 28 |

Link | NOC:Applied Ergonomics | Lecture 29 |

Link | NOC:Applied Ergonomics | Lecture 30 - Work Systems |

Link | NOC:Applied Ergonomics | Lecture 31 - Measures of Productivity |

Link | NOC:Applied Ergonomics | Lecture 32 - Productivity Measurement |

Link | NOC:Applied Ergonomics | Lecture 33 - Work Study |

Link | NOC:Applied Ergonomics | Lecture 34 - Motion and time study |

Link | NOC:Applied Ergonomics | Lecture 35 - Motion Study |

Link | NOC:Applied Ergonomics | Lecture 36 - Flow Diagram |

Link | NOC:Applied Ergonomics | Lecture 37 - Time Study |

Link | NOC:Applied Ergonomics | Lecture 38 - Manual Work System |

Link | NOC:Applied Ergonomics | Lecture 39 - Worker Machine Systems |

Link | NOC:Applied Ergonomics | Lecture 40 - Industrial accidents |

Link | NOC:Applied Ergonomics | Lecture 41 - Human Errors |

Link | NOC:Applied Ergonomics | Lecture 42 - Workers compensation laws |

Link | NOC:Applied Ergonomics | Lecture 43 - Organisation Ergonomics - Part 1 |

Link | NOC:Applied Ergonomics | Lecture 44 - Organisation Ergonomics - Part 2 |

Link | NOC:Applied Ergonomics | Lecture 45 - Job Satisfaction |

Link | NOC:Applied Ergonomics | Lecture 46 - Worker behavior |

Link | NOC:Applied Ergonomics | Lecture 47 - Job ranking Techniques |

Link | NOC:Applied Ergonomics | Lecture 48 - Waging System |

Link | NOC:Applied Ergonomics | Lecture 49 - Biomechanics - 1 |

Link | NOC:Applied Ergonomics | Lecture 50 - Biomechanics - 2 |

Link | NOC:Applied Ergonomics | Lecture 51 - Applications of Biomechanics |

Link | NOC:Applied Ergonomics | Lecture 52 - Problem solving - 1 |

Link | NOC:Applied Ergonomics | Lecture 53 - Problem solving - 2 |

Link | NOC:Applied Ergonomics | Lecture 54 - Problem solving - 3 |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 1 - Basics of Production |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 2 - Basics of Production (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 3 - Sustainability and Manufacturing |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 4 - Introduction to Simulation |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 5 - Introduction to Simulation (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 6 - Basic Statistical Concepts for Sustainable Manufacturing Analysis |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 7 - Basic Statistical Concepts for Sustainable Manufacturing Analysis (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 8 - Life Cycle Assessment |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 9 - Life Cycle Assessment Elements |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 10 - Life Cycle Assessment Procedure |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 11 - Life Cycle Assessment (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 12 - Sustainability Framework |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 13 - Basic Modeling Concepts for Factory Simulation |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 14 - Basic Modeling Concepts for Factory Simulation (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 15 - Green Manufacturing Modelling: Metrics for Green Manufacturing |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 16 - Green Manufacturing Modelling (Continued...) Indices for Green Manufacturing |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 17 - Green Manufacturing Modelling (Continued...) Developing Green Manufacturing System |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 18 - Productivity and Sustainability |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 19 - Productivity and Sustainability (Continued...) |

Link | NOC:Sustainability through Green Manufacturing Systems - An Applied Approach | Lecture 20 - Green Manufacturing Techniques |