Chapter 1 Fundamental Electrical Terms 1.1 Introduction 1.2 Charge 1.3 Current 1.4 Direct and Alternating Currents 1.5 Conductors, Insulators and Semiconductors 1.6 Resistance and Conductance 1.7 Voltage 1.

8 Voltage and Current Sources 1.9 Electric Power and Energy 1.10 Measuring Equipment 1.10.1 Ohmmeter 1.10.2 Ammeter 1.10.

3 Voltmeter 1.10.4 Wattmeter 1.11 Electricity Bill 1.12 Efficiency of a System 1.13 Ohm''s Law 1.14 Kirchhoff''s Current Law 1.15 Kirchhoff''s Voltage Law 1.

16 Series Resistors and Voltage Division Rule 1.17 Parallel Resistors and Current Division Rule 1.18 Delta-Wye Transformation 1.19 Wye-Delta Transformation 1.20 Short Circuit and Open Circuit Exercise Problems Chapter 2 Fluid Power Properties 2.1 Introduction 2.2 Mass and Weight 2.3 Density 2.

4 Specific Weight 2.5 Specific Gravity 2.6 Pressure 2.7 Bottom Pressure of Liquid Column 2.8 Viscosity 2.9 Dynamic Viscosity 2.10 Kinematic Viscosity 2.11 Viscosity Index 2.

12 Fluid Flow and Continuity Equation 2.13 Bernoulli''s Equation 2.14 Torricelli''s Theorem 2.15 Young''s Modulus 2.16 Bulk Modulus 2.17 Reynold Number 2.18 Buoyancy 2.19 Pascal Law 2.

20 Force Transmission and Multiplication Exercise Problems Chapter 3 Hydraulic Pumps 3.1 Introduction 3.2 Pump 3.3 Pump Pressure and Flow Rate 3.4 Pump Power and Torque 3.5 Pumps Classification 3.6 Working Principle of Pump 3.7 Rotary Pumps 3.

7.1 Gear Pump 3.7.2 Lobe Pump 3.7.3 Vane Pump 3.7.4 Screw Pump 3.

7.5 Piston Pump 3.8 Theoretical Discharge of Axial Piston Pump 3.9 Centrifugal Pump 3.10 Velocity Triangle of Centrifugal Pump 3.11 Graphic Symbols of Pump 3.12 Performance of Pump Chapter 4 Hydraulic Directional Valves 4.1 Introduction 4.

2 Control Valves 4.3 Classification of DCV 4.4 Check Valve 4.5 Shuttle Valve 4.6 Two-way Directional Control Valves 4.7 Three-way Directional Control Valves 4.8 Four-way Directional Control Valves 4.9 Actuation of Control Valves 4.

10 Mounting of Directional Control Valves 4.11 Directional Control Valves Specification.