the elements of statistics and dynamicsCUP Archive |
Contents
STATICS | 1 |
COMPOSITION AND RESOLUTION OF FORCES | 8 |
PARALLEL FORCES | 47 |
MOMENTS | 58 |
COUPLES | 75 |
EQUILIBRIUM OF A RIGID BODY ACTED UPON | 84 |
GENERAL CONDITIONS OF EQUILIBRIUM OF A RIGID | 97 |
CENTRE OF GRAVITY | 119 |
PROBLEMS WITH FRICTION | 260 |
MISCELLANEOUS | 274 |
SOME ADDITIONAL PROPOSITIONS | 297 |
EASY MISCELLANEOUS EXAMPLES | 318 |
CHAP | 7 |
VII | 50 |
COLLISION OF ELASTIC BODIES | 142 |
IX | 165 |
CENTRE OF GRAVITY CONTINUED | 149 |
WORK | 163 |
MACHINES | 171 |
The Steelyards | 218 |
FRICTION | 232 |
MOTION ON A SMOOTH CURVE UNDER THE ACTION | 182 |
SIMPLE HARMONIC MOTION PENDULUMS | 194 |
UNITS AND DIMENSIONS | 213 |
TABLE OF DIMENSIONS AND VALUES OF FUNDA | 229 |
ANSWERS ixx | i |
Common terms and phrases
angle of friction angular velocity attached ball beam body centimetres centre of gravity circle coefficient of friction coefficient of restitution components curve direction of motion distance described equal and opposite equation equilibrium feet per second find the velocity fixed point force equal forces acting ft.-sec given grammes Hence horizontal plane horizontal table impact inches inclined plane kinetic energy m₁ magnitude and direction middle point miles per hour momentum moving point oscillation parallelogram particle is projected pendulum perpendicular position poundals radius ratio reaction respectively rest resultant right angles scale-pan shew sides simple harmonic motion sin² sliding smooth horizontal smooth pulley sphere straight line string passing Theorem train triangle uniform rod unit of force unit of velocity units of length vertical plane W₁ W₂ weight wheel zero