Solid and Fluid Mechanics |
Contents
Chapter | 9 |
2 | 11 |
B Deformation of Solids | 37 |
D Principal Planes and Principal Stress | 95 |
5 | 140 |
Shear Force and Bending Moment Diagrams for a Cantilever | 141 |
HYDRAULIC TURBINES AND PUMPS | 146 |
5 | 149 |
C Shear Stresses in Beams | 234 |
86 | 245 |
95 | 261 |
5 | 265 |
6 | 377 |
136 | 419 |
Solved Problems 3 863 87 | 431 |
INCOMPRESSIBLE FLUID FLOW | 487 |
BENDING OF BEAMS AND TORSION | 161 |
6 | 169 |
8 | 174 |
7 | 183 |
9 | 190 |
C Fluid Kinematics | 192 |
4 | 222 |
3 | 493 |
5 | 513 |
634810 | 634 |
C Pumps | 722 |
b Reciprocating Pump | 763 |
Common terms and phrases
A₁ A₂ angle Anna University Area B.M. diagram bending moment diagram bulk modulus cantilever compressive stress contraflexure cross-section decrease in length diameter direction distance elastic limit equal equilibrium F₁ fluid force acting Force in member forces vertically given by equation Hence inclined loads joint kN Compressive kN Tensile kN/m Lateral strain longitudinal strain Major principal maximum shear stress Minor principal stress mm² modulus of rigidity Mohr's circle N/cm² N/m² N/mm² neutral axis normal stress oblique plane P₁ P₂ point load Poisson's ratio pressure principal planes Problem Q₂ R₁ rectangular Resolving the forces resultant stress roller section FC shear force shear force diagram shown in Fig simple shear simply supported beam straight line law subjected tensile load tensile stress Total load truss tube uniformly distributed load velocity volumetric strain Young's modulus zero σ₁ ду