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Thermodynamics I
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CHE 204
Unsteady State Processes
Example: The draining tank
Example: The draining tank
Example: The draining tank
◄ Material and Energy Balance Under Unsteady State Conditions
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System and Its Surroundings
Thermodynamics
Material and Energy Balance Under Unsteady State Conditions
The First Law Self Study Module
The First Law
Heat and Work Under Different Constraints
Example: Isothermal Compression
Example: Adiabatic Compression
Example: Work is a Path Function
Turbines, Compressors, Steam Tables
Example: Compressor Operating at Steady State
Entropy a New State Variable
Entropy an Additional Balance Equation
The Carnot Cycle Self Study Module
The Carnot Cycle
Power Systems in Practice and Their Impacts
The Power Cycles Self Study Module
The Power Cycles Self Study Module- Diesel and Otto
Entropy an Additional Balance Equation, Power Cycles
The Power Cycles Self Study Module - Rankine
The Steam Engine
Refrigeration Cycles Self Study Module
The Refrigeration Cycle
Liquefaction in practice and its impacts
Liquefaction
The Real Fluids Self Study Module
The Real Fluids Van Der Waals Equation of State Self Study Module
Equations of State
Four Different Constraints and Energies Self Study Module
Four Different Constraints and Energies
The Real Fluids Maxwell Relations Self Study Module
Maxwell Relations
The Real Fluids Internal Energy Change Self Study Module
The Departure from Ideal Functions
The First Law Self Study Module ►
CHE 204
General Introduction
Unsteady State Processes
The First Law of Thermodynamics
Heat and Work
Turbines, Compressors, Steam Tables
Entropy
The Carnot Cycle
Power Cycles
The Steam Engine or The Rankine Cycle
The Refrigeration Cycles
Liquefaction
Real Fluids
Maxwell Relations
The Departure from Ideal Functions
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