Chapter 1 PROPERTIES OF FLUIDS 1
Chapter 2 HYDROSTATIC FORCE ON SURFACES 22
Chapter 3 BUOYANCY AND FLOTATION 36
Chapter 4 TRANSLATION AND ROTATION OF LIQUID MASSES 42
Chapter 5 DIMENSIONAL ANALYSIS AND HYDRAULIC SIMILITUDE 50
Chapter 6 FUNDAMENTALS OF FLUID FLOW 70
Chapter 7 FLUID FLOW IN PIPES 96
Chapter 8 EQUIVALENT,COMPOUND,LOOPING AND BRANCHING PIPES 115
Chapter 9 MEASUREMENT OF FLOW OF LIQUIDS 133
Chapter 10 FLOW IN OPEN CHANNELS 161
Chapter 11 FORCES DEVELOPED BY MOVING FLUIDS 194
Chapter 12 FLUID MACHINERY 227
APPENDIX 247
Table 1 Properties of air,water,and some gases 249
2 Kinematic viscosity and specific gravity of certain liquids 250
3 Frictional factors f for water only 251
4 Typical loss of head items 252
5 Values of K for contractions and enlargements 253
6 Some values of Hazen-Williams coefficient C1 253
7 Discharge coefficients of circular orifices 254
8 Expansion factors Y for compressible flow 255
9 Average values of Manning's n and Bazin's m 255
10 Values of Kutter's C 256
11 Values of discharge factors K for trapezoidal channels 257
12 Values of discharge factors K' for trapezoidal channels 258
13 Areas of circles 259
14 Weights and dimensions of cast iron pipe 259
DIAGRAMS 260
Diagram A-1 Moody diagram for frictional factors f 260
A-2 Modified Moody diagram for frictional factors f (direct solution for flow Q) 261
B Nomographic chart for Hazen-Williams formulae (C1 = 100) 262
C Coefficients for pipe orifices 263
D Coefficients for flow nozzles 264
E Coefficients for Venturi meters 265
F Coefficients of drag 266
G Coefficients of drag for smooth flat plates 267
H Coefficients of drag at supersonic velocities 268
INDEX 269