NOC:Chemistry-II


Lecture 1 - Electromagnetic radiation


Lecture 2 - Interaction of radiation with matter


Lecture 3 - Introduction to chemical applications


Lecture 4 - Analysis of spectra


Lecture 5 - Radiation densities and Einstein's semi classical model


Lecture 6 - Introduction to quantum mechanics - I


Lecture 7 - Introduction to quantum mechanics - II


Lecture 8 - Born-Oppenheimer approximation


Lecture 9 - Beer-Lambert law


Lecture 10 - Diatomic Vibration Spectra Hermonic Model


Lecture 11 - Diatomic Vibration Morse Oscillator Model


Lecture 12 - Normal Vibrational modes Triatomic molecules


Lecture 13 - Normal Vibrational modes Polyatomic molecules


Lecture 14 - Vibrational Polyatomic Infrared Spectroscopy Local Modes and Group Frequencies


Lecture 15 - Microwave spectra of di-atomic molecules


Lecture 16 - Diatomic Molecules Microwave Energies and Transitions


Lecture 17 - Methodology of solving problems


Lecture 18 - Rotational and Vibrational Line Intensities


Lecture 19 - Microwave Spectra of Polyatomic molecules (Symmetric tops)


Lecture 20 - Video Tutorial 2 : Part - I


Lecture 21 - Video Tutorial 2 : Part - II


Lecture 22 - Introduction to Tensors


Lecture 23 - Polarizability Tensor


Lecture 24 - Introduction to Rotational Raman Spectra.


Lecture 25 - Review of basic concepts in Molecular Spectroscopy


Lecture 26 - Review of Microwave Spectroscopy


Lecture 27 - Review of Elementary Vibrational Spectroscopy