MARC details
000 -LEADER |
fixed length control field |
10822cam a2200373 a 4500 |
001 - CONTROL NUMBER |
control field |
17044316 |
003 - CONTROL NUMBER IDENTIFIER |
control field |
BUL |
005 - DATE AND TIME OF LATEST TRANSACTION |
control field |
20210318133647.0 |
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
fixed length control field |
111114s2012 nyua 001 0 eng |
010 ## - LIBRARY OF CONGRESS CONTROL NUMBER |
LC control number |
2011043067 |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
International Standard Book Number |
9780415517850 (pbk.) |
040 ## - CATALOGING SOURCE |
Original cataloging agency |
BUL |
Transcribing agency |
BUL |
Modifying agency |
BUL |
042 ## - AUTHENTICATION CODE |
Authentication code |
pcc |
050 00 - LIBRARY OF CONGRESS CALL NUMBER |
Classification number |
9780415517850 |
Item number |
.B49 2012 |
082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
Edition number |
23 |
084 ## - OTHER CLASSIFICATION NUMBER |
Classification number |
TEC009000 |
-- |
TEC009070 |
-- |
TEC040000 |
Number source |
bisacsh |
100 1# - MAIN ENTRY--PERSONAL NAME |
Personal name |
Bird, J. O. |
245 10 - TITLE STATEMENT |
Title |
Mechanical engineering principles / |
Statement of responsibility, etc. |
John Bird and Carl Ross. |
250 ## - EDITION STATEMENT |
Edition statement |
2nd ed. |
260 ## - PUBLICATION, DISTRIBUTION, ETC. |
Place of publication, distribution, etc. |
New York, NY : |
Name of publisher, distributor, etc. |
Routledge, |
Date of publication, distribution, etc. |
2012. |
300 ## - PHYSICAL DESCRIPTION |
Extent |
x, 301 p. : |
Other physical details |
ill. ; |
Dimensions |
28 cm. |
500 ## - GENERAL NOTE |
General note |
Contents<br/><br/>Preface ix<br/><br/>Part Oneâ•…Revision of Mathematics 1<br/>1 Revisionary Mathematics 3<br/>1.1 Introduction 3<br/>1.2 Radians and degrees 3<br/>1.3 Measurement of angles 4<br/>1.4 Triangle calculations 5<br/>1.5 Brackets 7<br/>1.6 Fractions 8<br/>1.7 Percentages 9<br/>1.8 Laws of indices 11<br/>1.9 Simultaneous equations 14<br/>Revision Test 1 Revisionary mathematics 18<br/>Part Twoâ•…Statics and Strength<br/>of Materials 21<br/><br/>2 The effects of forces on materials 23<br/>2.1 Introduction 23<br/>2.2 Tensile force 24<br/>2.3 Compressive force 24<br/>2.4 Shear force 24<br/>2.5 Stress 24<br/>2.6 Strain 25<br/>2.7 Elasticity, limit of proportionality and elastic limit 27<br/>2.8 Hooke’s law 28<br/>2.9 Ductility, brittleness and malleability 32<br/>2.10 Modulus of rigidity 32<br/>2.11 Thermal strain 33<br/>2.12 Compound bars 33<br/><br/>3 Tensile testing 39<br/>3.1 The tensile test 39<br/>3.2 Worked problems on tensile testing 40<br/>3.3 Further worked problems on tensile testing 42<br/>3.4 Proof stress 44<br/><br/>4 Forces acting at a point 46<br/>4.1 Scalar and vector quantities 46<br/>4.2 Centre of gravity and equilibrium 46<br/>4.3 Forces 47<br/>4.4 The resultant of two coplanar forces 48<br/>4.5 Triangle of forces method 48<br/>4.6 The parallelogram of forces method 50<br/>4.7 Resultant of coplanar forces by calculation 50<br/>4.8 Resultant of more than two<br/>coplanar forces 51<br/>4.9 Coplanar forces in equilibrium 53<br/>4.10 Resolution of forces 54<br/>4.11 Summary 58<br/><br/>5 Simply supported beams 61<br/>5.1 The moment of a force 61<br/>5.2 Equilibrium and the principle of moments 62<br/>5.3 Simply supported beams<br/>having point loads 64<br/>5.4 Simply supported beams with couples 68<br/>Revision Test 2â•…Forces, tensile testing and beams 72<br/><br/>6 Forces in structures 73<br/>6.1 Introduction 73<br/>6.2 Worked problems on mechanisms and pin-jointed trusses 74<br/>6.3 Graphical method 75<br/>6.4 Method of joints (a mathematical method) 79<br/>6.5 The method of sections (a mathematical method) 84<br/><br/>7 Bending moment and shear force diagrams 87<br/>7.1 Bending moment (M) 87<br/>7.2 Shearing force (F) 87<br/>7.3 Worked problems on bending moment and shearing force diagrams 88<br/>7.4 Uniformly distributed loads 97<br/><br/>8 First and second moments of areas 102<br/>8.1 Centroids 102<br/>8.2 The first moment of area 102<br/>8.3 Centroid of area between a curve and the x-axis 103<br/>8.4 Centroid of area between a curve and the y-axis 103<br/>viâ•… Contents<br/>8.5 Worked problems on centroids of<br/>simple shapes 104<br/>8.6 Further worked problems on centroids<br/>of simple shapes 105<br/>8.7 Second moments of area of<br/>regular sections 106<br/>8.8 Second moment of area for‘built-up’ sections 113<br/>Revision Test 3â•…Forces in structures,bending moment and shear force diagrams, and second moments of area 119<br/><br/>9 Bending of beams 120<br/>9.1 Introduction 120<br/>9.2 To prove that s = M = E y I R 121<br/>9.3 Worked problems on the bending of beams 122<br/><br/>10 Torque 126<br/>10.1 Couple and torque 126<br/>10.2 Work done and power transmitted by a constant torque 127<br/>10.3 Kinetic energy and moment of inertia 129<br/>10.4 Power transmission and efficiency 132<br/><br/>11 Twisting of shafts 136<br/>11.1 To prove that t = T = Gθr J L 136<br/>11.2 Worked problems on the twisting of shafts 138<br/>Revision Test 4â•…Bending of beams, torque and twisting of shafts 142<br/>Part Three Dynamics 143<br/><br/>12 Linear and angular motion 145<br/>12.1 The radian 145<br/>12.2 Linear and angular velocity 145<br/>12.3 Linear and angular acceleration 147<br/>12.4 Further equations of motion 148<br/>12.5 Relative velocity 150<br/><br/>13 Linear momentum and impulse 154<br/>13.1 Linear momentum 154<br/>13.2 Impulse and impulsive forces 157<br/><br/>14 Force, mass and acceleration 162<br/>14.1 Introduction 162<br/>14.2 Newton’s laws of motion 163<br/>14.3 Centripetal acceleration 165<br/>14.4 Rotation of a rigid body about a fixed axis 167<br/>14.5 Moment of inertia (I) 167<br/><br/>15 Work, energy and power 170<br/>15.1 Work 170<br/>15.2 Energy 174<br/>15.3 Power 175<br/>15.4 Potential and kinetic energy 178<br/>15.5 Kinetic energy of rotation 181<br/>Revision Test 5â•…Linear and angular motion,momentum and impulse,<br/>force, mass and acceleration, work, energy and power 184<br/><br/>16 Friction 185<br/>16.1 Introduction to friction 185<br/>16.2 Coefficient of friction 186<br/>16.3 Applications of friction 187<br/>16.4 Friction on an inclined plane 188<br/>16.5 Motion up a plane with the pulling force P parallel to the plane 188<br/>16.6 Motion down a plane with the pulling force P parallel to the plane 189<br/>16.7 Motion up a plane due to a horizontal force P 189<br/>16.8 The efficiency of a screw jack 192<br/><br/>17 Motion in a circle 196<br/>17.1 Introduction 196<br/>17.2 Motion on a curved banked track 198<br/>17.3 Conical pendulum 199<br/>17.4 Motion in a vertical circle 201<br/>17.5 Centrifugal clutch 203<br/><br/>18 Simple harmonic motion 205<br/>18.1 Introduction to simple<br/>harmonic motion (SHM) 205<br/>18.2 The spring-mass system 206<br/>18.3 The simple pendulum 208<br/>18.4 The compound pendulum 209<br/>18.5 Torsional vibrations 210<br/><br/>19 Simple machines 212<br/>19.1 Machines 212<br/>19.2 Force ratio, movement ratio and efficiency 212<br/>19.3 Pulleys 214<br/>19.4 The screw-jack 216<br/>19.5 Gear trains 216<br/>19.6 Levers 218<br/><br/>Revision Test 6â•…Friction, motion in a circle,<br/><br/>simple harmonic motion and<br/>simple machines 222<br/>Contentsâ•… vii<br/>Part Four Heat Transfer and Fluid<br/>Mechanics 223<br/><br/>20 Heat energy and transfer 225<br/>20.1 Introduction 225<br/>20.2 The measurement of temperature 226<br/>20.3 Specific heat capacity 226<br/>20.4 Change of state 228<br/>20.5 Latent heats of fusion and vaporisation 229<br/>20.6 A simple refrigerator 231<br/>20.7 Conduction, convection and radiation 231<br/>20.8 Vacuum flask 232<br/>20.9 Use of insulation in conserving fuel 232<br/><br/>21 Thermal expansion 235<br/>21.1 Introduction 235<br/>21.2 Practical applications of<br/>thermal expansion 235<br/>21.3 Expansion and contraction of water 236<br/>21.4 Coefficient of linear expansion 236<br/>21.5 Coefficient of superficial expansion 238<br/>21.6 Coefficient of cubic expansion 239<br/>Revision Test 7â•…Heat energy and transfer, and thermal expansion 243<br/><br/>22 Hydrostatics 244<br/>22.1 Pressure 244<br/>22.2 Fluid pressure 245<br/>22.3 Atmospheric pressure 247<br/>22.4 Archimedes’ principle 248<br/>22.5 Measurement of pressure 249<br/>22.6 Barometers 249<br/>22.7 Absolute and gauge pressure 251<br/>22.8 The manometer 252<br/>22.9 The Bourdon pressure gauge 253<br/>22.10 Vacuum gauges 253<br/>22.11 Hydrostatic pressure on submerged surfaces 254<br/>22.12 Hydrostatic thrust on curved surfaces 255<br/>22.13 Buoyancy 255<br/>22.14 The stability of floating bodies 255<br/><br/>23 Fluid flow 261<br/>23.1 Differential pressure flowmeters 261<br/>23.2 Orifice plate 262<br/>23.3 Venturi tube 262<br/>23.4 Flow nozzle 263<br/>23.5 Pitot-static tube 263<br/>23.6 Mechanical flowmeters 264<br/>23.7 Deflecting vane flowmeter 264<br/>23.8 Turbine type meters 264<br/>23.9 Float and tapered-tube meter 265<br/>23.10 Electromagnetic flowmeter 266<br/>23.11 Hot-wire anemometer 266<br/>23.12 Choice of flowmeter 267<br/>23.13 Equation of continuity 267<br/>23.14 Bernoulli’s equation 267<br/>23.15 Impact of a jet on a stationary plate 269<br/><br/>24 Ideal gas laws 272<br/>24.1 Boyle’s law 272<br/>24.2 Charles’ law 273<br/>24.3 The pressure law 274<br/>24.4 Dalton’s law of partial pressure 275<br/>24.5 Characteristic gas equation 275<br/>24.6 Worked problems on the<br/>characteristic gas equation 275<br/>24.7 Further worked problems on the<br/>characteristic gas equation 277<br/><br/>25 The measurement of temperature 281<br/>25.1 Liquid-in-glass thermometer 281<br/>25.2 Thermocouples 282<br/>25.3 Resistance thermometers 284<br/>25.4 Thermistors 286<br/>25.5 Pyrometers 286<br/>25.6 Temperature indicating paints<br/>and crayons 287<br/>25.7 Bimetallic thermometers 288<br/>25.8 Mercury-in-steel thermometer 288<br/>25.9 Gas thermometers 288<br/>25.10 Choice of measuring devices 288<br/>Revision Test 8â•…Hydrostatics, fluid flow, gas laws and temperature measurement 290<br/><br/>A list of formulae for mechanical engineering principles 291<br/>Greek alphabet 296<br/>Answers to multiple-choice questions 297<br/>Index 299 |
520 ## - SUMMARY, ETC. |
Summary, etc. |
"Mechanical Engineering Principles offers a student-friendly introduction to core engineering topics that does not assume any previous background in engineering studies, and as such can act as a core textbook for several engineering courses. Bird and Ross introduce mechanical principles and technology through examples and applications rather than theory. This approach enables students to develop a sound understanding of the engineering principles and their use in practice. Theoretical concepts are supported by over 600 problems and 400 worked answers.The new edition will match up to the latest BTEC National specifications and can also be used on mechanical engineering courses from Levels 2 to 4"-- |
Assigning source |
Provided by publisher. |
520 ## - SUMMARY, ETC. |
Summary, etc. |
"In this book John Bird and Carl Ross introduce mechanical principles and technology through examples and applications - enabling students to develop a sound understanding of the principles needed by professional engineers and technicians. No previous background in engineering is assumed and theoretical concepts are supported by over 600 problems and worked examples. This completely new text is designed to match a wide range of pre-degree courses, and provide an accessible introduction for undergraduates with no previous background in engineering studies. The authors have ensured syllabus-match for the leading UK courses at this level: AVCE optional units Mechanical Engineering Principles and Further Mechanical Engineering Principles, and the new BTEC National unit: Mechanical Principles"-- |
Assigning source |
Provided by publisher. |
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
Mechanical engineering |
Form subdivision |
Textbooks. |
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
Mechanical engineering |
Form subdivision |
Problems, exercises, etc. |
650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
TECHNOLOGY & ENGINEERING / Engineering (General). |
Source of heading or term |
bisacsh |
650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
TECHNOLOGY & ENGINEERING / Mechanical. |
Source of heading or term |
bisacsh |
650 #7 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
TECHNOLOGY & ENGINEERING / Technical & Manufacturing Industries & Trades. |
Source of heading or term |
bisacsh |
700 1# - ADDED ENTRY--PERSONAL NAME |
Personal name |
Ross, C. T. F., |
Dates associated with a name |
1935- |
856 ## - ELECTRONIC LOCATION AND ACCESS |
Materials specified |
Full text E-book in PDF |
Uniform Resource Identifier |
<a href="https://www.pdfdrive.com/mechanical-engineering-principles-d32338671.html">https://www.pdfdrive.com/mechanical-engineering-principles-d32338671.html</a> |
Link text |
https://www.pdfdrive.com/mechanical-engineering-principles-d32338671.html |
942 ## - ADDED ENTRY ELEMENTS (KOHA) |
Source of classification or shelving scheme |
Dewey Decimal Classification |
Koha item type |
Book Open Access |
Edition |
2nd Ed. |
Item part |
1 |