Physical chemistry is the study of macroscopic, and particulate phenomena in chemical systems in terms of the principles, practices, and concepts of physics such as motion, energy, force, time, #thermodynamics, #quantum chemistry, #statistical mechanics, analytical dynamics and chemical equilibrium.
#PhysicalChemistry, in contrast to chemical physics, is predominantly (but not always) a macroscopic or supra-molecular science, as the majority of the principles on which it was founded relate to the bulk rather than the molecular/atomic structure alone (for example, chemical equilibrium and colloids). (Source: wikipedia)
This is the full course of Physical chemistry where the following topics have been discussed in a very comprehensive way.
⭐ Table of Contents ⭐
⌨️ (0:00:00) Course Introduction
⌨️ (0:06:22) Concentrations
⌨️ (0:11:58) Properties of gases introduction
⌨️ (0:15:29) The ideal gas law
⌨️ (0:26:10) Ideal gas (continue)
⌨️ (0:33:56) Dalton's Law
⌨️ (0:39:58) Real gases
⌨️ (0:50:44) Gas law examples
⌨️ (1:00:40) Internal energy
⌨️ (1:10:59) Expansion work
⌨️ (1:22:34) Heat
⌨️ (1:28:28) First law of thermodynamics
⌨️ (1:39:39) Enthalpy introduction
⌨️ (1:43:46) Difference between H and U
⌨️ (1:55:06) Heat capacity at constant pressure
⌨️ (2:03:20) Hess' law
⌨️ (2:11:59) Hess' law application
⌨️ (2:22:06) Kirchhoff's law
⌨️ (2:29:18) Adiabatic behaviour
⌨️ (2:41:47) Adiabatic expansion work
⌨️ (2:48:52) Heat engines
⌨️ (2:57:27) Total carnot work
⌨️ (3:07:48) Heat engine efficiency
⌨️ (3:11:30) Microstates and macrostates
⌨️ (3:21:54) Partition function
⌨️ (3:30:18) Partition function examples
⌨️ (3:37:55) Calculating U from partition
⌨️ (3:48:13) Entropy
⌨️ (3:56:34) Change in entropy example
⌨️ (4:09:55) Residual entropies and the third law
⌨️ (4:18:09) Absolute entropy and Spontaneity
⌨️ (4:27:46) Free energies
⌨️ (4:35:12) The gibbs free energy
⌨️ (4:45:48) Phase Diagrams
⌨️ (4:52:32) Building phase diagrams
⌨️ (5:00:43) The clapeyron equation
⌨️ (5:03:30) The clapeyron equation examples
⌨️ (5:18:29) The clausius Clapeyron equation
⌨️ (5:29:07) Chemical potential
⌨️ (5:35:57) The mixing of gases
⌨️ (5:48:32) Raoult's law
⌨️ (6:02:08) Real solution
⌨️ (6:12:13) Dilute solution
⌨️ (6:18:56) Colligative properties
⌨️ (6:27:26) Fractional distillation
⌨️ (6:37:35) Freezing point depression
⌨️ (6:48:50) Osmosis
⌨️ (6:56:44) Chemical potential and equilibrium
⌨️ (7:04:07) The equilibrium constant
⌨️ (7:10:46) Equilibrium concentrations
⌨️ (7:21:11) Le chatelier and temperature
⌨️ (7:36:07) Le chatelier and pressure
⌨️ (7:45:18) Ions in solution
⌨️ (7:54:48) Debye-Huckel law
⌨️ (8:02:22) Salting in and salting out
⌨️ (8:15:12) Salting in example
⌨️ (8:25:33) Salting out example
⌨️ (8:35:59) Acid equilibrium review
⌨️ (8:45:33) Real acid equilibrium
⌨️ (8:54:36) The pH of real acid solutions
⌨️ (9:02:12) Buffers
⌨️ (9:11:12) Rate law expressions
⌨️ (9:23:51) 2nd order type 2 integrated rate
⌨️ (9:34:18) 2nd order type 2 (continue)
⌨️ (9:42:54) Strategies to determine order
⌨️ (9:53:02) Half life
⌨️ (9:59:55) The arrhenius Equation
⌨️ (10:12:00) The Arrhenius equation example
⌨️ (10:20:46) The approach to equilibrium
⌨️ (10:34:55) The approach to equilibrium (continue..)
⌨️ (10:46:47) Link between K and rate constants
⌨️ (10:56:39) Equilibrium shift setup
⌨️ (11:06:13) Time constant, tau
⌨️ (11:16:13) Quantifying tau and concentrations
⌨️ (11:23:26) Consecutive chemical reaction
⌨️ (11:26:48) Multi step integrated Rate laws
⌨️ (11:41:39) Multi-step integrated rate laws (continue..)
⌨️ (11:51:24) Intermediate max and rate det step
⭐ Credit ⭐
This great course was Presented by : Dr. Michael Groves,
Department of chemistry and biochemistry, California state university.
License: Creative Commons Attribution license (reuse allowed)
YT: https://www.youtube.com/channel/UCTk4zXdXCRC1pbgA8JFoerw
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