MIT
Season 18

35 Episodes

Season 18

Episodes

All »
  • 35 episodes
    35 episodes
    • s18e35Nuclear Chemistry and the Cardiolite Story
    • s18e34Bonding in Metals and Semiconductors
    • s18e33Ligand Substitution Reactions: Kinetics
    • s18e32Coordination Complexes and Ligands
    • s18e31Color and Magnetism of Coordination Complexes
    • s18e30Crystal Field Theory
    • s18e29Crystal Field Theory
    • s18e28Molecular Orbital Theory for Polyatomic Molecules
    • s18e27Molecular Orbital Theory for Diatomic Molecules
    • s18e26Molecular Orbital Theory
    • s18e25Valence Bond Theory
    • s18e24Theory of Molecular Shapes
    • s18e23Cell Potentials and Free Energy
    • s18e22Electrons in Chemistry: Redox Processes
    • s18e21Titration Curves and pH Indicators
    • s18e20Lewis and Bronsted Acid-Base Concepts
    • s18e19Molecular Description of Acids and Bases
    • s18e18Thermodynamics and Spontaneous Change
    • s18e17Polarizability
    • s18e16Intermolecular Interactions
    • s18e15Internal Degrees of Freedom
    • s18e14Distribution Molecular Energies
    • s18e13Kinetic Theory - Behavior of Gases
    • s18e12Ionic Bonds - Classical Model and Mechanism
    • s18e11Why Wavefunctions are Important?
    • s18e10Periodic Trends in Elemental Properties
    • s18e9Electronic Structure of Multielectron Atoms
    • s18e8P Orbitals
    • s18e7Hydrogen Atom Wavefunctions
    • s18e6Schrödinger Equation for H Atom
    • s18e5Matter as a Waves
    • s18e4Particle-Like Nature of Light
    • s18e3Wave-Particle Duality of Radiation and Matter
    • s18e2Discovery of Nucleus
    • s18e1Atomic Theory of Matter