Cover -- Preface -- Contents -- Group A. Thermodynamics -- Chapter 1. Basic Concept and Some Definitions -- 1.1 Introduction -- 1.2 Macroscopic and Microscopic Approach -- 1.3 Thermodynamic System -- 1.4 Classification of Thermodynamic Systems -- 1.5 Control Mass And Control Volume -- 1.6 Thermodynamic Co-Ordinates -- 1.7 State of a System -- 1.8 Properties of a System -- 1.9 Classification of Properties of a System -- 1.10 Phase -- 1.11 Thermodynamic Equilibrium -- 1.12 Path -- 1.13 Process -- 1.14 Cyclic Process or Thermodynamic Cycle -- 1.15 Point Function And Path Function -- 1.16 Unit -- 1.17 Systems of Units -- 1.18 Mass (M) -- 1.19 Weight (W) -- 1.20 Force (F) -- 1.21 Specific Weight (Ws) -- 1.22 Specific Volume (Vs) -- 1.23 Pressure -- 1.24 Absolute, Gauge and Vacuum Pressure -- 1.25 Pressure Measurement by Manometer -- 1.26 Normal Temperature and Pressure (N.T.P) -- 1.27 Standard Temperature and Pressure (S.T.P) -- 1.28 Energy -- 1.29 Types of Stored Energy -- 1.30 Law of Conservation of Energy -- 1.31 Power -- Chapter 2. Zeroth Law and Temperature -- 2.1 Temperature -- 2.2 Zeroth Law of Thermodynamics -- 2.3 Measurement of Temperature -- 2.4 Constant Volume Gas Thermometer and Temperature Scale -- 2.5 Heat and Heat Transfer -- 2.6 Specific Heat -- 2.7 Thermal or Heat Capacity of a Substance -- 2.8 Water Equivalent of a Substance -- 2.9 Mechanical Equivalent of Heat -- 2.10 Work -- 2.11 Sign Convention of Work -- 2.12 Work Done During a Quasi-Static or Quasi-Equilibrium Process -- 2.13 Work And Heat Transfer - A Path Function -- 2.14 Comparison of Heat And Work -- 2.15 Example of Work -- 2.16 Work in Non-Flow Process Versus Flow Process -- Chapter 3. Properties and Thermodynamic Processes of Gas -- 3.1 Introduction -- 3.2 General Gas Equation -- 3.3 Equation of State and Characteristic Equation of Gas.

3.4 Universal Gas Constant or Molar Gas Constant -- 3.5 Specific Heat of Gas -- 3.6 Linear Relation Between Cp And Cv -- 3.7 Ratio of Cp And Cv -- 3.8 Enthalpy of a Gas -- 3.9 Thermodynamic Processes -- 3.10 Classification of Thermodynamic Process -- 3.11 Heating and Expansion of Gases in Non-Flow Process -- 3.12 Constant Volume Process or Isochoric Process -- 3.13 Constant Pressure Process or Isobaric Process -- 3.14 Hyperbolic Process -- 3.15 Constant Temperature Process or Isothermal Process -- 3.16 Adiabatic Process -- 3.17 Polytropic Process -- 3.18 General Laws for Expansion and Compression -- 3.19 Real Gas -- 3.20 Real Gas and Compressibility Factor -- 3.21 Law of Corresponding State and Generalized Compressibility chart -- Chapter 4. First Law of Thermodynamics and Its Application -- 4.1 Introduction -- 4.2 Joule's Experiment -- 4.3 First Law of Thermodynamics For a System Undergoing A Thermodynamics Cycle -- 4.4 The Important Consequences of The First Law of Thermodynamics -- 4.5 Limitations of First Law of Thermodynamics -- 4.6 Application of First Law Thermodynamics to a Non-Flow Process -- 4.7 Application of First Law of Thermodynamic to a Steady Flow Process -- 4.8 Mass Balance (Continuity) Equation -- 4.9 Work Done in a Steady Flow Process -- 4.10 Work Done Various Steady Flow Process -- 4.11 Throttling Process -- 4.12 Application of Steady Flow Energy Equation To Engineering System -- Chapter 5. Second Law of Thermodynamics -- 5.1 Introduction -- 5.2 The Second Law of Thermodynamics -- 5.3 Equivalence of Kelvin-Planck and Clausius of Second Law Ofthermodynamics -- 5.4 Reversible Cycle -- 5.5 Irreversible Cycle -- 5.6 Reversibility and Irreversibility of Thermodynamic Process -- 5.7 Carnot Cycle -- 5.8 Reverse Carnot Cycle -- 5.9 Carnot Theorem -- Chapter 6. Entropy -- 6.1 Introduction -- 6.2 Importance of Entropy.

6.3 Units of Entropy -- 6.4 Clausius Theorem -- 6.5 Entropy- A Point Function or A Property of a System -- 6.6 Clausius Inequality -- 6.7 Principle of Increase of Entropy -- 6.8 Entropy and Temperature Relation -- 6.9 General Expression for Change of Entropy of a Perfect Gas -- 6.10 Change of Entropy of Perfect Gas During Various Thermodynamic Process -- 6.11 Irreversibility -- Chapter 7. Properties of Pure Substances -- 7.1 Introduction -- 7.2 Phase Equilibrium of a Pure Substance on T-V Diagram -- 7.3 Temperature and Total Heat Graph During Steam Formation -- 7.4 Phase Equilibrium at Higher Pressure -- 7.5 Phase Equilibrium at Lower Pressures -- 7.6 Thermodynamic Surface -- 7.7 P-∀ Diagram of a Pure Substances -- 7.8 Important Terms of Steam -- 7.9 Entropy of Steam -- 7.10 Entropy of Water -- 7.11 Entropy Increases During Evaporation -- 7.12 Entropy of Wet and Dry Steam -- 7.13 Entropy for Superheated Steam -- 7.14 External Work of Evaporation -- 7.15 Internal Latent Heat -- 7.16 Internal Energy of Steam -- 7.17 Temperature-Entropy Diagram of Water and Steam -- 7.18 Isothermal Lines on T-S Diagram -- 7.19 Isentropic Lines -- 7.20 Enthalpy-Entropy (h-s) Diagram For Water and Steam or Mollier Chart -- 7.21 Dryness Fraction Lines on H-S Diagram -- 7.22 Constant Volume Line -- 7.23 Constant Pressure Line -- 7.24 Isothermal Line -- 7.25 Isentropic Line on (H-S) Diagram -- 7.26 Throttling Lines on H-S Diagram -- Chapter 8. Thermodynamic Air Standard Cycles -- 8.1 Introduction -- 8.2 Assumptions in Thermodynamic Cycles -- 8.3 Classification of Thermodynamic Cycles -- 8.4 Important Parameters in Air Standard Cycle Analysis -- 8.5 Important Terms Used in Thermodynamic Cycles -- 8.6 Types of Thermodynamic Cycles -- 8.7 Carnot Cycle -- 8.8 Otto Cycle -- 8.9 Joule's Cycle -- 8.10 Diesel Cycle.

8.11 Comparison Between the Efficiency of Otto and Diesel Cycle for Same Compression Ratio -- Chapter 9. Steam Power Cycle -- 9.1 Introduction -- 9.2 Rankine Cycle -- 9.3 Vapour Compression Refrigeration Cycle -- Bibliography -- Group-B. Fluid Mechanics -- Chapter 1. Introduction And Fundamental Concepts -- 1.1 Definition of Fluid -- 1.2 Fluid Mechanics and its Perview -- 1.3 Fluid as a Continuum -- 1.4 Properties of Fluid -- Chapter 2. Fluid Statics -- 2.1 Forces on Fluid Element -- 2.2 Equilibrium Of Static Fluid Element -- 2.3 Solution of Euler's Equations -- 2.4 Gauge Pressure and Absolute Pressure -- 2.5 Measurement of Pressure -- 2.6 Manometer -- 2.7 Hydrostatic Force on Submerged Plane Surface -- 2.8 Hydrostatic Force On Submerged Curved Surface -- 2.9 Buoyancy & Archimedes Law -- 2.10 Equilibrium and Metacentre -- Chapter 3. Kinematics of Fluid Flow -- 3.1 Introduction -- 3.2 Scalar And Vector Field -- 3.3 Description of Fluid Flow -- 3.4 Classification of Flow -- 3.5 Description of Flow Patterns -- 3.6 Conservation of Mass -- Chapter 4. Dynamics of Fluid Flow -- 4.1 Introduction -- 4.2 Equation of Steady Motion Along Streamline -- 4.3 Bernoulli's Equation -- 4.4 Different Heads -- 4.5 Hydraulic Grade Line (HGL) and Energy Grade Line (EGL) -- 4.6 Major and Minor Head Loss -- 4.7 Absolute and Relative Roughness -- 4.8 Reynold's Number -- 4.9 Application of Bernoulli's Equation -- 4.10 Static Pressure and Stagnation Pressure -- 4.11 Pitot Tube -- Bibliography -- Question Paper -- Index.