Home > Lectures > Atomic Theory of Matter

Atomic Theory of Matter

By Sylvia Ceyer - MIT
get flash player

Related Videos

  1. Chemical Equilibrium (cont.)

    Chemical Equilibrium (cont.)

    MIT / Chemistry

    Catherine Drennan
  2. Matter As a Wave

    Matter As a Wave

    MIT / Chemistry

    Sylvia Ceyer
  3. Breakdown of Octet Rule

    Breakdown of Octet Rule

    MIT / Chemistry

    Sylvia Ceyer
  4. Chemical Equilibrium

    Chemical Equilibrium

    MIT / Chemistry

    Catherine Drennan

Lecture Description

In this introductory lecture, Professor Sylvia Ceyer introduces those throughout history who have contributed to the atomic theory of matter, beginning with Aristotle and Democritus, and ending with the work of Lavoisier, Proust, and Dalton. After disussing scanning tunnelling microscopy, Professor Ceyer moves to the major advances in chemistry at the end of the 19th century. These include Newtonian mechanics, thermodynamices, statistical mechanics, and classical electromagnetism. The lecture ends with a non-"classical" observation that changed the trajectory of chemistry: the discovery of the electron.

Course Description

This is an introductory chemistry course, emphasizing basic principles of atomic and molecular electronic structure, thermodynamics, acid-base and redox equilibria, chemical kinetics, and catalysis. This course also introduces the chemistry of biological, inorganic, and organic molecules.

Related Resources

Transcript   |  Lecture Notes

Course Index

  1. Atomic Theory of Matter
  2. Discovery of Nucleus
  3. Wavelike Properties of Radiation
  4. Particle-like Nature of Light
  5. Matter As a Wave
  6. The Hydrogen Atom
  7. Hydrogen Atom Wavefunctions
  8. P Orbitals
  9. Electronic Structure of Multielectron Atoms
  10. Periodic Trends in Elemental Properties
  11. Covalent Bonds
  12. Lewis Diagrams
  13. Breakdown of Octet Rule
  14. Molecular Orbital Theory
  15. Valence Bond Theory and Hybridization
  16. Hybridization and Chemical Bonding
  17. Bond Energies / Bond Enthalpies
  18. Free Energy of Formation
  19. Chemical Equilibrium
  20. Chemical Equilibrium (cont.)
  21. Acid-Base Equilibrium
  22. Acid-Base Equilibrium (cont.)
  23. Acid-Base Equilibrium: Titrations
  24. Acid Base Titrations and Oxidation/Reduction
  25. Oxidation/Reduction
  26. Oxidation/Reduction (cont.)
  27. Transition Metals 1
  28. Transition Metals 2: Crystal Field Theory
  29. The Shapes of Molecules: VSEPR Theory
  30. Transition Metals 3
  31. Kinetics 1
  32. Kinetics 2
  33. Kinetics 3
  34. Kinetics 4
  35. Kinetics 5: Catalysis
  36. Review for Principles of Chemical Science, Normal Track