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00) Course Introduction
00) Course Introduction
01) Basic Definitions and Concepts
1-a) System & Properties
1-b) Reversible Processes
1-c) Temperature & Pressure
02) Work Calculations
2-a) Work Calculations for Closed Systems (Isobaric & Isothermal)
2-b) Work Calculations for Closed Systems (Adiabatic & Polytropic)
2-c) GATE Questions
2-d) ESE Questions
03) First Law of Thermodynamics
3-a) First Law for Closed Systems
3-b) Problems for First Law for Closed Systems
3-c) Enthalpy & Steady Flow Energy Equation
3-d) Problems - Enthalpy & SFEE
3-e) Energy Analysis of Unsteady Flow Processes
3-f) Mixing of Ideal Gases
3-g) Carnot Cycle
3-h) Problems - Carnot Cycle
04) Entropy & Calculations
4-a) Introduction & TDS Equations
4-b) Problems - TDS Equations
4-c) T-S Diagrams
4-d) Claussius Inequality & Entropy Principle
4-e) Entropy Considerations in Heat Engines
4-f) Heat Engines in Series
05) Availability & Irreversibilty
5-a) Available & Unavailable Energy
5-b) Problems-Available & Unavailable Energy
5-c) Irreversibility
06) Pure Substances
6-a) Basic Concepts
6-b) Dryness Fraction & Properties Calculations
07) Real Gas & Ideal Gas
7-a) Real Gas & Ideal Gas
08) Thermodynamic Relations
8-a) Maxwell equations
8-b) Classius Equation & Joule Thomson Coeffecient
8-c) Problems-Thermodynamic Relations
09) Properties of Mixtures
9-a) Properties of Mixture
Preview - Thermodynamics - GATE/IES
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