MIT
Season 13

36 Episodes

Season 13

Episodes

All »
  • 36 episodes
    36 episodes
    • s13e36Autocatalysis and Oscillators
    • s13e35Enzyme Catalysis
    • s13e34Temperature Dependence, Ea, Catalysis
    • s13e33Chain Reactions
    • s13e32Steady-state Equilibrium Approximations
    • s13e31Complex Reactions and Mechanisms
    • s13e30Introduction to Reaction Kinetics
    • s13e29Applications: Chemical and Phase Equilibria
    • s13e28Model Systems
    • s13e27Statistical Mechanics and discrete energy levels
    • s13e26Partition Function (Q) - many particles
    • s13e25Partition Function (q) - Large N limit
    • s13e24Introduction to Statistical Mechanics
    • s13e23Colligative Properties
    • s13e22Non-ideal Solutions
    • s13e21Ideal Solutions
    • s13e20Phase Equilibria - Two Components
    • s13e19Clausius - Clapeyron Equation
    • s13e18Phase Equilibria - One Component
    • s13e17Equilibrium: Application to Drug Design
    • s13e16Temperature, Pressure, and Kp
    • s13e15Chemical Equilibrium
    • s13e14Multicomponent Systems, Chemical Potential
    • s13e13Gibbs Free Energy
    • s13e12Criteria for Spontaneous Change
    • s13e11Fundamental equation, Absolute S, Third Law
    • s13e10Entropy and Irreversibility
    • s13e9Entropy and the Clausius Inequality
    • s13e8Second Law
    • s13e7Calorimetry
    • s13e6Thermochemistry
    • s13e5Adiabatic Changes
    • s13e4Enthalpy
    • s13e3Internal energy, expansion work
    • s13e2Work, heat, first law
    • s13e1State of a system, 0th Law, Equation of State