Clapeyron Equation 
Clapeyron Equation
by TMP Chem / Trent Parker
Video Lecture 73 of 147
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Date Added: February 4, 2015

Lecture Description

Physical chemistry microlecture on the temperature and pressure dependence of coexistence curves and the Clapeyron equation.

Course Index

  1. Introduction
  2. Ideal Gas Equation
  3. van der Waals Gas Equation
  4. Gas Equation Example
  5. Virial Equation of State
  6. Molecular Interaction Functions
  7. Critical Point
  8. Reduced Properties
  9. Gas Properties Review
  10. Energy Quantization
  11. Boltzmann Factor
  12. Average Ensemble Energy
  13. Partition Function Example 1
  14. Partition Function Example 2
  15. Partition Function Example 3
  16. Molecular Partition Function 1
  17. Molecular Partition Function 2
  18. Translational Partition Function
  19. Rotational Partition Function
  20. Statistical Mechanics Review
  21. First Law
  22. Pressure-Volume Work
  23. State and Path Functions
  24. Reversible Processes
  25. Isothermal Processes
  26. Adiabatic Processes
  27. Adiabatic / Isothermal Comparison
  28. Microscopic Heat and Work
  29. Enthalpy
  30. Enthalpy Example
  31. Heat Capacity
  32. Transition Enthalpy
  33. Reaction Enthalpy
  34. Hess's Law
  35. Formation Enthalpy
  36. Hrxn from Hformation
  37. Hrxn Temp Dependence
  38. First Law / Enthalpy Review
  39. Spontaneous Processes
  40. Entropy
  41. Expansion Entropy
  42. Second Law
  43. Entropy Example
  44. Statistical Entropy
  45. Gibbs Entropy
  46. Reversible Entropy
  47. Heat Engines
  48. Second Law / Entropy Review
  49. Entropy Temp Dependence 1
  50. Entropy Temp Dependence 2
  51. Third Law
  52. Transition Entropy
  53. Debye T^3 Law
  54. Absolute Calorimetric Entropy
  55. Absolute Statistical Entropy
  56. Residual Entropy
  57. Reaction Entropy
  58. Third Law / Absolute Entropy Review
  59. Helmholtz Energy
  60. Gibbs Energy
  61. Natural Variables
  62. Maxwell Relations: Concept
  63. Maxwell Relations: Summary
  64. Maxwell Relations: Example
  65. Standard Entropy Correction
  66. Gibbs-Helmholtz Equation
  67. Fugacity
  68. Fugacity Coefficient
  69. Gibbs / Helmholtz Energy Review
  70. Phase Diagrams
  71. Gibbs Energy of Phases
  72. Chemical Potential
  73. Clapeyron Equation
  74. Clausius-Clapeyron Equation
  75. Statistical Chemical Potential
  76. Phase Diagrams Review
  77. Partial Molar Quantities
  78. Gibbs-Duhem Equation
  79. Solution Chemical Potential
  80. Raoult's Law
  81. Pressure-Composition Diagram
  82. Temperature-Composition Diagram
  83. Energy of Mixing
  84. Henry's Law
  85. Activity
  86. Standard Activity
  87. Liquid-Liquid Solutions Review
  88. Molality and Molarity
  89. Non-Volatile Solutes
  90. Colligative Properties
  91. Freezing Point Depression
  92. Osmotic Pressure
  93. Electrolyte Activity
  94. Debye-Huckel Law
  95. Solid-Liquid Solutions Review
  96. Extent of Reaction
  97. Equilibrium Constant Derivation
  98. Le Chatalier's Principle
  99. Concentration Equilibrium Constant
  100. Standard Reaction Gibbs Energy
  101. Equilibrium Gibbs Energy
  102. Reaction Quotient
  103. Reaction Spontaneity
  104. Van't Hoff Equation
  105. Fugacity Equilibrium Constant
  106. Activity Equilibrium Constant
  107. Condensed Phase Activity
  108. Equilibrium Review
  109. Electrochemical Cells
  110. Half Cell Reactions
  111. Cell Diagrams
  112. Electromotive Force
  113. Nernst Equation
  114. Standard Reduction Potential
  115. Electrochemistry Example
  116. Electrochemical Enthalpy and Entropy
  117. Ionic Gibbs Energy
  118. Solubility Product
  119. Batteries
  120. Electrochemistry Review
  121. Summary of Thermodynamics Chapters
  122. Introduction
  123. Average Kinetic Energy
  124. Average Velocity
  125. Maxwell-Boltzmann Distribution
  126. Mean Free Path
  127. Total Collision Rate
  128. Kinetic Theory of Gases Review
  129. Reaction Rates
  130. Rate Laws
  131. First Order Reactions
  132. Second Order Reactions
  133. Half Life
  134. Determining Rate Laws
  135. Reversible Reactions
  136. Activation Energy
  137. Reaction Coordinate
  138. Reaction Rates Review
  139. Reaction Mechanisms
  140. Detailed Balance
  141. Rate Determining Step
  142. Steady-State Approximation
  143. Unimolecular Reactions
  144. Catalysis
  145. Michaelis-Menton Mechanism
  146. Reaction Mechanisms Review
  147. Summary of Kinetics Chapters

Course Description

This microlecture series from TMP Chem covers the content of an undergraduate course on chemical thermodynamics and kinetics. Topics include gas equations of state, statistical mechanics, the laws of thermodynamics, enthalpy, entropy, Gibbs and Helmholtz energies, phase diagrams, solutions, equilibrium, electrochemistry, kinetic theory of gases, reaction rates, and reaction mechanisms.

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