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Chris Cramer @UCQWne9DleuGu0q9TmA70jWQ@youtube.com

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Contains all of the videos used to teach Computational Chemi


11:04
StatMolThermo 02.04 Law of Corresponding States
14:03
StatMolThermo 08.03 Maxwell Relations from A
10:59
StatMolThermo 08.01 Helmholtz Free Energy
02:17
StatMolThermo 08.09 Roll Credits!
05:56
StatMolThermo 08.08 Review of Module 8
11:57
StatMolThermo 08.05 Rubber Band Thermodynamics
11:25
StatMolThermo 08.07 P and T Dependence of G
19:07
StatMolThermo 08.02 Gibbs Free Energy
09:40
StatMolThermo 08.06 Natural Independent Variables
13:18
StatMolThermo 08.04 Maxwell Relations from G
19:46
StatMolThermo 07.05 Third Law Entropies
07:17
StatMolThermo 07.07 Review of Module 7
12:04
StatMolThermo 07.03 Standard Entropy
12:14
StatMolThermo 07.01 Entropy and Other Thermodynamic Functions
12:47
StatMolThermo 07.04 Entropy From the Partition Function
05:59
StatMolThermo 07.06 Additivity of Entropies
13:14
StatMolThermo 07.02 Third Law of Thermodynamics
15:09
StatMolThermo 06.04 Statistical Entropy
15:36
StatMolThermo 06.03 Spontaneity and the Second Law
15:02
StatMolThermo 06.08 The Carnot Cycle
10:27
StatMolThermo 06.01 Entropy
13:31
StatMolThermo 06.06 Entropy and the Partition Function
07:35
StatMolThermo 06.02 Entropy As a State Function
18:26
StatMolThermo 06.05 Computing Entropy
05:09
StatMolThermo 06.07 ß and Boltzmann's Constant
06:27
StatMolThermo 06.09 Review of Module 6
15:44
StatMolThermo 05.02 Paths for PV Work
07:11
SatMolThermo 05.11 Review of Module 5
11:09
StatMolThermo 05.08 Heat Capacities
09:50
StatMolThermo 05.07 Enthalpy
12:24
StatMolThermo 05.01 First Law of Thermodynamics
06:09
StatMolThermo 05.06 Microscopic Origin of Pressure
14:21
StatMolThermo 05.04 Characteristic Ideal Gas Expansion Paths
12:18
StatMolThermo 05.10 Standard Enthalpy
07:31
StatMolThermo 05.03 Differentials and State Functions
12:03
StatMolThermo 05.09 Thermochemistry
12:06
StatMolThermo 05.05 Adiabatic Processes
15:23
StatMolThermo 04.01 Ideal Monatomic Gas: q_trans
12:58
StatMolThermo 04.05 Ideal Diatomic Gas: Part 2
07:54
StatMolThermo 04.07 Ideal Polyatomic Gases: Part 1
07:02
StatMolThermo 04.09 Review of Module 4
08:57
StatMolThermo 04.02 Ideal Monatomic Gas: Q
12:23
StatMolThermo 04.08 Ideal Polyatomic Gases: Part 2
13:10
StatMolThermo 04.06 Ideal Diatomic Gas: Examples
15:23
StatMolThermo 04.03 Ideal Monatomic Gas: Properties
21:02
StatMolThermo 04.04 Ideal Diatomic Gas: Part 1
10:55
StatMolThermo 03.03 Ideal Gas Equation of State–Internal Energy
15:50
StatMolThermo 03.02 Boltzmann Population
10:32
StatMolThermo 03.04 Ideal Gas Equation of State Redux
05:14
StatMolThermo 03.08 Review of Module 3
06:00
StatMolThermo 03.05 van der Waals Equation of State Redux
07:28
StatMolThermo 03.07 The Molecular Partition Function
15:28
StatMolThermo 03.06 The Ensemble Partition Function
12:31
StatMolThermo 03.01 Boltzmann Probability
23:51
StatMolThermo 02.06 Molecular Interactions
11:59
StatMolThermo 02.05 Virial Equation of State
15:44
StatMolThermo 02.02 Non-ideal Gas Equations of State
15:04
StatMolThermo 02.07 Other Intermolecular Potentials
06:40
StatMolThermo 02.08 Review of Module 2
18:02
StatMolThermo 02.01 Ideal Gas Equation of State