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Module 1
Introduction
Introduction to Thermodynamics; Thermodynamic Systems, surroundings and boundary
Types of System; Microscopic & Macroscopic approach
Control Volume; Intensive & Extensive Properties of a System; State, Process & Cycle
Thermodynamic Equilibrium; Path Function & Point Function; Quasi Static Process
Zeroth Law of Thermodynamics; Continuum; Temperature & Temperature Scales
Problem 1
Problem 2
Problem 3
Real & Imaginary Boundary; Specific Properties
MET202 (Notes) - Module 1
ASSIGNMENT 1 - MET202
Module 2
Introduction
Energy; Heat; Work
Modes of Work transfer; Free expansion; Joule's Experiment; First Law of Thermodynamics and its Limitations
Problems based on the First Law of Thermodynamics
Internal energy & Enthalpy; Perpetual Motion Machine of the first kind; Specific heat relation of ideal gas
First law of Thermodynamic applied to non flow process Part 1
First law of Thermodynamic applied to non flow process Part 2; Problems related to non flow process Part 1
Problems related to non flow process Part 2
Study Flow Energy Equation (SFEE) and its applications
SFEE Problems Part 1
SFEE Problems Part 2; Unsteady flow or Transient flow; Filling & Emptying process
MET202 (Notes) - Module 2
Assignment 2 - MET202
Module 3
Introduction
Second law of Thermodynamics; Thermal reservoir, Source & Sink; Heat engine, Heat pump & Refrigerator
Statements Of Second Law Of Thermodynamics; Equivalence Of Kelvin Plank & Clausius Statements; PMM - 2; Reversibility & Irreversibility
Carnot's Theorem, proof and its Coriolis
Problems related to Carnot's theorem; Clausius Inequality
Concept Of Entropy; Entropy - A Property Of The System; Expression For Change In Entropy Of Ideal Gas
Application of change in Entropy for different processes; Principle of increase of Entropy
Application of Entropy Principle; Entropy Generation; Third law of Thermodynamics
Problems related to Entropy
Available Energy and Unavailable Energy; Availabilityand Irreversibility; First and Second Law Efficiency; Problem
MET202 (Notes) - Module 3
Module 4
Introduction
Pure Substance; Phase change process of Pure Substance(Water) or Steam formation; Dryness and Wetness fraction
Pure Substance T-V, P-T, P-V, T-S, H-S Diagrams
Numericals Part -1
Numericals Part - 2
Ideal gas & Real gas; Characteristic Gas constant & Universal Gas constant; Vander wall equation of state & viral expansion; Compressibility chart & rate
Law of the Corresponding state and it's problems
MET202 (Notes) - Module 4
Module 5
Introduction
Gas Mixture; Dalton's law; Amagat's law of Additive Volume
Gibbs Dalton Law; Gravimetric and Volumetric Analysis and its problems
Problems related to Gravimetric and Volumetric analysis
Maxwell equations; Tds equation; Clausius clapeyron equation
Joule Thompson coefficient and inversion curve; Generalized equation for Joule Thompson coefficient; Energy equations and problems; Kay's Rule
MET202 (Notes) - Module 5
Solved Previous Years Question Papers
MET202 Numericals Solutions - July 2021
MET202 Numericals Solutions - June 2022