CML 100

Course Info

1. Course Flyer (fixed the link)
   
   

Lectures

1. Lecture 1: Shortfalls of Classical Mechanics
   
   
2. Lecture 2: Waves et al.
   
   
3. Lecture 3: Particle in a box
   
   
4. Lecture 4,5: Harmonic Oscillator [New notes: Additions/corrections made in red]
   
   
5. Lecture 6: Rotational Spectra
   
   
6. Lecture 6,7,8: Spherical Harmonics (updated)
   
   
7. Lecture 9: H-atom radial part
   
   
8. Lecture 10,11: Approximate Methods: Variation and Perturbation
   
   
9. Lecture 12,13: H₂ molecule
   
   
10. Lecture 14: Huckel M.O.T.
    
    
11. Lecture 15: Partition function
    
    
12. Lecture 16: Molecular Partition function
    
    
    
13. Lecture 17: Molecular Partition function for diatomic molecules
    
    
14. Lecture 18: Work, heat, energy, enthalpy, First Law
    
    
15. Lecture 19: Entropy and Second Law
    
    
16. Lecture 20: Absolute Entropy and Third Law
    
    

Tutorials

1. Tutorial 1: PIB, SHO - SUbmission deadline 17th Jan 2018 during the lecture
   
   
2. Tutorial 1 solutions
   
   
3. Tutorial 2: Rigid rotor, H-atom - SUbmission deadline 31st Jan 2018 during the lecture
   
   
4. Tutorial 2 solutions
   
   
5. Tutorial 3: Approximation methods - SUbmission deadline 13th Feb 2018 during the lecture
   
   
6. Tutorial 3 solutions
   
   
7. Tutorial 4: Thermodynamics - SUbmission deadline 9th Mar 2018 after the lecture
   
   
8. Tutorial 4 solutions
   
   

Exams

1. Minor 1 solutions
   
   
2. Minor 2 solutions
   
   
3. Major solutions
   
   

Extras

1. Derivation of the Rayleigh-Jeans Law
   
   
2. Solution of the quantum Harmonic Oscillator by the power series method
   
   
3. Harmonic Oscillator
   
   
4. Rigid Rotor
   
   
5. Rigid Rotor using the ladder method
   
   
6. H-atom radial part
   
   
7. Perturbation theory
   
   
8. Elliptical coordinates for H₂
   
   
9. The complete source 1
   
   
10. The complete source 2
    
    
11. Advanced source for Quantum Chemistry