Mechanical Engineering Principles

vi MECHANICAL ENGINEERING PRINCIPLES

8 Bending of beams 103

8.1 Introduction 103

8.2 To prove that

σ

y

=

M

I

=

E

R

103

8.3 Worked problems on

the bending of beams 105

9 Torque 109

9.1 Couple and torque 109

9.2 Work done and power

transmitted by a constant torque 110

9.3 Kinetic energy and

moment of inertia 112

9.4 Power transmis-

sion and efficiency 116

10 Twisting of shafts 120
10.1 Introduction 120

10.2 To prove that

τ

r

=

T

J

=

Gθ

L

120

10.3 Worked problems on

the twisting of shafts 122

Assignment 3 126

Part 2 Dynamics 127

11 Linear and angular motion 127
11.1 The radian 127
11.2 Linear and angular velocity 127
11.3 Linear and angular acceleration 129
11.4 Further equations of motion 130
11.5 Relative velocity 132

12 Linear momentum and impulse 136
12.1 Linear momentum 136
12.2 Impulse and impulsive forces 139

13 Force, mass and acceleration 144
13.1 Introduction 144
13.2 Newton’s laws of motion 144
13.3 Centripetal acceleration 147
13.4 Rotation of a rigid
body about a fixed axis 149
13.5 Moment of inertia (I) 149

14 Work, energy and power 153
14.1 Work 153
14.2 Energy 157
14.3 Power 159
14.4 Potential and kinetic energy 162
14.5 Kinetic energy of rotation 165

Assignment 4 169

15 Friction 170

15.1 Introduction to friction 170

15.2 Coefficient of friction 170

15.3 Applications of friction 172

15.4 Friction on an inclined plane 173

15.5 Motion up a plane with

the pulling forceP

parallel to the plane 173

15.6 Motion down a plane

with the pulling force

P parallel to the plane 174

15.7 Motion up a plane due

to a horizontal forceP 175

15.8 The efficiency of a screw jack 177

16 Motion in a circle 182

16.1 Introduction 182

16.2 Motion on a curved banked track 184

16.3 Conical pendulum 185

16.4 Motion in a vertical circle 187

16.5 Centrifugal clutch 189

17 Simple harmonic motion 191

17.1 Introduction 191

17.2 Simple harmonic motion (SHM) 191

17.3 The spring-mass system 192

17.4 The simple pendulum 194

17.5 The compound pendulum 195

17.6 Torsional vibrations 196

18 Simple machines 198

18.1 Machines 198

18.2 Force ratio, movement

ratio and efficiency 198

18.3 Pulleys 200

18.4 The screw-jack 202

18.5 Gear trains 203

18.6 Levers 205

Assignment 5 209

Part 3 Heat transfer and fluid mechanics 211

19 Heat energy and transfer 211

19.1 Introduction 211

19.2 The measurement of temperature 212

19.3 Specific heat capacity 212

19.4 Change of state 214

19.5 Latent heats of fusion

and vaporisation 215

19.6 A simple refrigerator 217

19.7 Conduction, convec-

tion and radiation 217

19.8 Vacuum flask 218