- Ideal Gas
- Heat and Work Introduction
- 3.2.1 Concept of Work in Mechanics
- Work Done in a Quasi-Static Path
- 3.4.2 Convention of Sign of Heat
- Heat Transfer- A Path Function
- First Law of Thermodynamics for a Control Mass Closed System Undergoing a Cycle
- First Law of Thermodynamics for a Change of State for a Control Mass Closed System
- Different Types of Stored Energy
- The Constant Volume Specific Heat
- Enthalpy
- The Constant Pressure Specific Heat
- Specific Heats of Solids and Liquids
- Energy of Isolated System
- Perpetual Motion Machine of the First Kind (Pmm-1)
- Open System and Control Volume
- Equation for Conservation Of Mass
- Equation for Conservation of Energy
- Steady State Steady Flow Energy Equation
- Examples of Steady Flow Processes
- Conversion of Work into Heat
- Conversion of Heat into Work
- Kelvin Plank Statement of Second Law of Thermodynamics
- Clausius Statement of the Second Law
- Refrigerator and Heat Pump
- Equivalence of Kelvin Plank and Clausius Statements
- Introduction to Carnot Cycle
- Working of the Carnot Cycle
- Efficiency of Carnot Cycle
- Carnot’s Theorem
- Absolute Thermodynamic Temperature Scale or Kelvin Scale
- Absolute Zero on Thermodynamic Temperature Scale
- Clausius Inequality, Entropy and Irreversibility – Introduction
- Reversible Adiabatic Paths Do Not Intersect
- Clausius’ Theorem
- Entropy
- Entropy- Temperature Plot
- Clausius’s Inequality
- Entropy Change in an Irreversible Process
- Principle of Increase of Entropy
- The Degree of Irreversibility of an Irreversible Process
- Summary of First and Second Law by Clausius
- Practical Use of Entropy Principle
- First Law and Second Law Combined
- Analysis of Thermodynamic Equations
- Ideal Gas or Perfect Gas
- Specific Heats, Internal Energy and Enthalpy of an Ideal Gas
- Entropy Change of an Ideal Gas
- Reversible Adiabatic Process
- P – v and T – s Diagrams for Pv” = C
- Equations of State
- Law of Corresponding States
- Introduction About Air Standard Cycles
- Internal Combustion Engine Terminology
- Otto Cycle
- Diesel Cycle
- Operating Principle of Four Stroke Petrol Engine (S.I. Engine)
- Operating Principle of Four Stroke Diesel Engine (C.I. Engine)
- Performance of I.C. Engines
- Properties of Pure Substances – Introduction
- Heating of Ice
- Heating of Pure Substances Other Than Ice
- Temperature- Enthalphy Graph During Formation of Steam
- Temperature and Specific Entropy Diagram for Steam
- The Process of Thermodynamic and Their Various Properties
- Types of Steam Table
- Mollier Diagram (h-s Axis)
- Team Power Plant (Simple Rankine Cycle)
- Vapour Compression Refrigeration Cycle – Introduction
- Simple Vapor Compression System
- 12.3 Presentations of Processes on P-H Diagram
- Introduction to Statics
- Idealizations of Mechanics
- Laws of Mechanics
- The Law of Parallelogram
- Types of Forces
- Coplanar Collinear
- Coplanar Concurrent
- Coplanar Parallel Forces
- Coplanar Non-Concurrent And Non-Parallel
- Scalar Quantity
- Vector Quantity
- Free Vector
- Sliding Vector
- Fixed Vector
- Law of the Triangle of Forces
- Lami’s Theorem
- Introduction to Vector Algebra
- Magnitude of a Vector
- Product of Vector a by Scalar M
- Addition of Vectors
- Subtraction of Vectors
- Addition of Vectors Using Polygon Method
- Resolution of Vectors
- Unit Vectors
- Scalar or Dot Product of Two Vectors
- Cross Product of Two Vectors
- Scalar Triple Product
- Two-Dimensional Force Systems
- Moment

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