Lecture 1 - NMR an historical perspective and NMR active nuclei
Lecture 2 - Spin Angular Momentum and Magnetic moment
Lecture 3 - Interaction of Spins with the magnetic field
Lecture 4 - Larmor Precession and Energy of interaction
Lecture 5 - NMR detection and sensitivity
Lecture 6 - Inducing Resonance and Bulk Magnetization
Lecture 7 - Signal detection and Rotating Frame Concept
Lecture 8 - Pulse phase and signal phase
Lecture 9 - FID and Fourier Transformation
Lecture 10 - Selection rules and transitions
Lecture 11 - External and Internal interactions in NMR
Lecture 12 - Chemical Shifts
Lecture 13 - NMR Spectrum and chemical equivalence
Lecture 14 - Conversion of frequency and ppm
Lecture 15 - Field dependence and factors affecting chemical shift
Lecture 16 - Factors contributing to chemical shifts - 1
Lecture 17 - Factors contributing to chemical shifts - 2
Lecture 18 - Scalar Couplings - 1
Lecture 19 - Scalar Couplings - 2
Lecture 20 - Energy levels of coupled spins
Lecture 21 - Spin system classification and multiplicity
Lecture 22 - Multiplicity pattern of coupled spins
Lecture 23 - Active and passive coupling
Lecture 24 - Coupling among equivalent spins - 1
Lecture 25 - Coupling among equivalent spins - 2
Lecture 26 - Coupling among non-equivalent spins
Lecture 27 - Geminal and Vicinal couplings
Lecture 28 - Spin system Nomenclature
Lecture 29 - Isotope effect
Lecture 30 - Analysis of Strongly coupled spin systems
Lecture 31 - Eigen values of A2 and AMX spin systems
Lecture 32 - Analysis of Three spin coupled systems
Lecture 33 - Analysis of Proton NMR spectra - 1
Lecture 34 - Analysis of Proton NMR spectra - 2
Lecture 35 - Analysis of Proton NMR spectra - 3
Lecture 36 - Basics of 13C-NMR
Lecture 37 - Coupled and Decoupled 13C-Spectra
Lecture 38 - Broadband decoupling in 13C-NMR
Lecture 39 - Analysis of 13C spectra and DEPT
Lecture 40 - Heteronuclear couplings and satellite analysis - 1
Lecture 41 - Heteronuclear couplings and satellite analysis - 2
Lecture 42 - Coupling among magnetic equivalent nuclei and isotope effect
Lecture 43 - Analysis of spectra of other nuclei
Lecture 44 - Spin Echoes
Lecture 45 - Polarization transfer techniques
Lecture 46 - INEPT and DEPT
Lecture 47 - Decoupling and NOE
Lecture 48 - NOE-2
Lecture 49 - Introduction to 2D NMR
Lecture 50 - Two-dimensional NMR
Lecture 51 - Two dimensional NMR
Lecture 52 - Two dimensional COSY
Lecture 53 - COSY and examples
Lecture 54 - Variants of COSY and TOCSY spectra
Lecture 55 - Heteronuclear correlation and inverse detection
Lecture 56 - Coupled and decoupled HSQC and HMBC
Lecture 57 - NMR data acquisition - 1
Lecture 58 - NMR data acquisition - 2
Lecture 59 - Practical considerations of 1D NMR
Lecture 60 - NMR Data processing
Lecture 61 - NMR Data processing
Lecture 62 - NMR Instrumentation - 1
Lecture 63 - NMR Instrumentation - 2
Lecture 64 - Relaxation processes - 1
Lecture 65 - Relaxation processes - 2