| | 14. Molecular orbital theory.mp4 | 112.56 MB |
| | 16. Determining hybridization in complex molecules, Thermochemistry and bond energies, bond... | 110.66 MB |
| | 20. Le Chatelier's principle and applications to blood-oxygen levels.mp4 | 109.65 MB |
| | 22. Chemical and biological buffers.mp4 | 109.24 MB |
| | 17. Entropy and disorder.mp4 | 108.21 MB |
| | 25. Electrochemical cells.mp4 | 105.65 MB |
| | 35. Enzyme catalysis.mp4 | 105.01 MB |
| | 24. Balancing oxidation, reduction equations.mp4 | 104.87 MB |
| | 19. Chemical equilibrium.mp4 | 101.9 MB |
| | 26. Chemical and biological oxidation, reduction reactions.mp4 | 101.7 MB |
| | 28. Crystal field theory.mp4 | 100.52 MB |
| | 33. Reaction mechanism.mp4 | 100.27 MB |
| | 32. Nuclear chemistry and elementary reactions.mp4 | 99.62 MB |
| | 23. Acid-base titrations.mp4 | 99.3 MB |
| | 27. Transition metals and the treatment of lead poisoning.mp4 | 98.99 MB |
| | 13. Polar covalent bonds, VSEPR theory.mp4 | 98.65 MB |
| | 18. Free energy and control of spontaneity.mp4 | 98.37 MB |
| | 31. Rate laws.mp4 | 94.85 MB |
| | 29. Metals in biology.mp4 | 92.04 MB |
| | 34. Temperature and kinetics.mp4 | 91.97 MB |
| | 15. Valence bond theory and hybridization.mp4 | 87.03 MB |
| | 30. Magnetism and spectrochemical theory.mp4 | 86.6 MB |
| | 2. Discovery of electron and nucleus, need for quantum mechanics.mp4 | 85.25 MB |
| | 21. Acid-base equilibrium, Is MIT water safe to drink.mp4 | 80.41 MB |
| | 3. Wave-particle duality of light.mp4 | 71.95 MB |
| | 36. Biochemistry.mp4 | 68.07 MB |
| | 4. Wave-particle duality of matter, Schrödinger equation.mp4 | 62 MB |
| | 1. The importance of chemical principles.mp4 | 60.43 MB |
| | 5. Hydrogen atom energy levels.mp4 | 54.56 MB |
| | 6. Hydrogen atom wavefunctions, orbitals.mp4 | 40.29 MB |