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Motor Vehicle Science Part 2 (1982)

Kett, P. W.

Dordrecht : Springer Netherlands

zur Merkliste hinzufügen auf der Merkliste

Details

ISBN: 9789400959439

Sprache: Englisch

Seiten: Online-Ressource (XVI, 398 p) , online resource

Ausgabe: Springer eBook Collection. Humanities, Social Sciences and Law

Paralleltitel: Erscheint auch als

Schlagwort(e): Science (General) ; Social sciences. ; Humanities.

Kurzfassung: 1. Materials (A) -- 1.1 Heat treatment -- 1.2 Materials and testing -- 1.3 Metal fatigue -- 1.4 Safety factor -- 1.5 Shear strain -- 1.6 Punching holes in a material -- 1.7 Bending and torsion -- Exercises -- 2. Engine indicator diagrams (B2) -- 2.1 Engine indicators -- 2.2 Converting an indicator diagram -- 2.3 Interpretation of indicator diagrams -- 3. Combustion processes (B3) -- 3.1 Specific heat capacity of a gas -- 3.2 Expansion and compression of gases -- 3.3 Engine temperature and pressure calculations -- 3.4 Efficiency of an engine -- 3.5 General comparison between petrol and compression ignition engines -- 3.6 Octane rating -- 3.7 Cetane number and diesel index -- 3.8 Detonation -- 3.9 Fuel additives -- 3.10 Volumetric efficiency -- Exercises -- 4. Air-fuel ratios and exhaust products (B4) -- 4.1 Air-fuel ratios: petrol engine -- 4.2 Air-fuel ratios: CI oil engine -- 4.3 Determination of air-fuel ratios -- 4.4 Mixture strength and side effects -- 4.5 Air-fuel ratio and power output -- 4.6 Combustion calculations -- 4.7 Consumption loop or hook curve -- Exercises -- 5. Archimedes’ Principle (B5) -- 5.1 Hydrostatics and hydraulics -- 5.2 Archimedes’ principle -- 5.3 Floating bodies -- Exercises -- 6. Fluids and energy (B6) -- 6.1 Pressure -- 6.2 The manometer -- 6.3 Energy of liquids -- 6.4 Bernoulli’s law -- 6.5 Quantity flow -- 6.6 The Venturi unit -- 6.7 Actual flow of liquids through an orifice -- 6.8 Gas velocities -- Exercises -- 7. Hydraulic mechanisms and machines (B7) -- 7.1 Hydraulic machines -- 7.2 Hydraulic intensifier -- 7.3 Hydraulic brakes -- 7.4 The law of a machine -- Exercises -- 8. Variable torque, force and work done (C8) -- 8.1 Variable torque -- 8.2 Work done -- 8.3 Couples -- Exercises -- 9. Angular motion (C9) -- 9.1 Angular velocity and angular acceleration -- 9.2 Power -- Exercises -- 10. Inertia force, mass and acceleration (C10) -- 10.1 Mass -- 10.2 Newton’s first and second laws of motion -- 10.3 Momentum -- 10.4 Braking efficiency and stopping distance -- 10.5 Newton’s third law of motion -- Exercises -- 11. Potential and kinetic energy (C11) -- 11.1 Potential energy -- 11.2 Kinetic energy -- 11.3 Conservation of energy -- 11.4 Conservation of momentum -- 11.5 Energy loss when bodies collide -- 11.6 Moment of inertia -- 11.7 Kinetic energy of a rotating body -- 11.8 Radius of gyration -- Exercises -- 12. Tractive effort and tractive resistance (C12) -- 12.1 Tractive effort -- 12.2 Tractive resistance -- 12.3 Undergeared and overgeared vehicles -- 12.4 Engine characteristics and gear ratios -- 12.5 Constant power and tractive-effort/road-speed curves -- 12.6 Data and methods for setting final drive and gearbox ratios -- Exercises -- 13. Centripetal force and balancing (C13) -- 13.1 Centripetal acceleration -- 13.2 Centripetal and centrifugal force -- 13.3 Balancing of rotating masses -- 13.4 Piston movement and inertia -- 13.5 Engine balance -- Exercises -- 14. Stability of vehicles in curved paths (C14) -- 14.1 Vehicle on curved level road -- 14.2 Vehicle on curved banked track -- 14.3 Vehicle on a reversed banked track -- 14.4 Arched or hump-back bridges -- 14.5 Road dip or depression -- Exercises -- 15. Transference of wheel loading (C15) -- 15.1 Vehicle weight transfer: retardation -- 15.2 Vehicle weight transfer: acceleration -- 15.3 Maximum possible acceleration: level road -- 15.4 Transferred weight: vehicle in curved path -- Exercises -- 16. Simple harmonic motion (C16) -- 16.1 The conical pendulum -- 16.2 The Watt centrifugal governor -- 16.3 The simple pendulum -- Exercises -- 17. Relative velocity (C17) -- 17.1 Definition and diagrams -- 17.2 Angular velocity of a link or lever -- 17.3 Relative velocity of points on a wheel -- Exercises -- Answers to Exercises.

Kurzfassung: A motor vehicle technician has to attain high technological skills to enable him or her to diagnose faults and service transport vehicles and their components. Science is a branch of study concerned with the systematic investigation of observed facts, and forms an important foundation on which to build sound engineering practice. Such a background will stimulate personal development by increasing confidence and intellectual ability. This is the second of two books which have been planned to cover the TEe U77/413 and 415 Motor Vehicle Science II and III Model programmes of study. Part 2 covers the requirements of Motor Vehicle Science III. The fundamental principles of engineering science have been applied to the motor vehicle in a systematic and progressive manner to enable the reader to follow most of the work on his or her own initiative. Emphasis has again been placed on the provision of many fully worked examples, some having more than one method of solution. These together with a large number of exercise examples enable the student to improve subject knowledge and gain that vital confidence so necessary for examinations. The book is aimed mainly at the student who is attending a recognized college course leading to full Technician qualification. It is designed to become a valid source of information to assist the student both in and out of the classroom environment, but the importance of the college lecturer and his or her individual method of teaching the subject remains of prime importance to the student.

Beschreibung / Inhaltsverzeichnis: 1. Materials (A)1.1 Heat treatment -- 1.2 Materials and testing -- 1.3 Metal fatigue -- 1.4 Safety factor -- 1.5 Shear strain -- 1.6 Punching holes in a material -- 1.7 Bending and torsion -- Exercises -- 2. Engine indicator diagrams (B2) -- 2.1 Engine indicators -- 2.2 Converting an indicator diagram -- 2.3 Interpretation of indicator diagrams -- 3. Combustion processes (B3) -- 3.1 Specific heat capacity of a gas -- 3.2 Expansion and compression of gases -- 3.3 Engine temperature and pressure calculations -- 3.4 Efficiency of an engine -- 3.5 General comparison between petrol and compression ignition engines -- 3.6 Octane rating -- 3.7 Cetane number and diesel index -- 3.8 Detonation -- 3.9 Fuel additives -- 3.10 Volumetric efficiency -- Exercises -- 4. Air-fuel ratios and exhaust products (B4) -- 4.1 Air-fuel ratios: petrol engine -- 4.2 Air-fuel ratios: CI oil engine -- 4.3 Determination of air-fuel ratios -- 4.4 Mixture strength and side effects -- 4.5 Air-fuel ratio and power output -- 4.6 Combustion calculations -- 4.7 Consumption loop or hook curve -- Exercises -- 5. Archimedes’ Principle (B5) -- 5.1 Hydrostatics and hydraulics -- 5.2 Archimedes’ principle -- 5.3 Floating bodies -- Exercises -- 6. Fluids and energy (B6) -- 6.1 Pressure -- 6.2 The manometer -- 6.3 Energy of liquids -- 6.4 Bernoulli’s law -- 6.5 Quantity flow -- 6.6 The Venturi unit -- 6.7 Actual flow of liquids through an orifice -- 6.8 Gas velocities -- Exercises -- 7. Hydraulic mechanisms and machines (B7) -- 7.1 Hydraulic machines -- 7.2 Hydraulic intensifier -- 7.3 Hydraulic brakes -- 7.4 The law of a machine -- Exercises -- 8. Variable torque, force and work done (C8) -- 8.1 Variable torque -- 8.2 Work done -- 8.3 Couples -- Exercises -- 9. Angular motion (C9) -- 9.1 Angular velocity and angular acceleration -- 9.2 Power -- Exercises -- 10. Inertia force, mass and acceleration (C10) -- 10.1 Mass -- 10.2 Newton’s first and second laws of motion -- 10.3 Momentum -- 10.4 Braking efficiency and stopping distance -- 10.5 Newton’s third law of motion -- Exercises -- 11. Potential and kinetic energy (C11) -- 11.1 Potential energy -- 11.2 Kinetic energy -- 11.3 Conservation of energy -- 11.4 Conservation of momentum -- 11.5 Energy loss when bodies collide -- 11.6 Moment of inertia -- 11.7 Kinetic energy of a rotating body -- 11.8 Radius of gyration -- Exercises -- 12. Tractive effort and tractive resistance (C12) -- 12.1 Tractive effort -- 12.2 Tractive resistance -- 12.3 Undergeared and overgeared vehicles -- 12.4 Engine characteristics and gear ratios -- 12.5 Constant power and tractive-effort/road-speed curves -- 12.6 Data and methods for setting final drive and gearbox ratios -- Exercises -- 13. Centripetal force and balancing (C13) -- 13.1 Centripetal acceleration -- 13.2 Centripetal and centrifugal force -- 13.3 Balancing of rotating masses -- 13.4 Piston movement and inertia -- 13.5 Engine balance -- Exercises -- 14. Stability of vehicles in curved paths (C14) -- 14.1 Vehicle on curved level road -- 14.2 Vehicle on curved banked track -- 14.3 Vehicle on a reversed banked track -- 14.4 Arched or hump-back bridges -- 14.5 Road dip or depression -- Exercises -- 15. Transference of wheel loading (C15) -- 15.1 Vehicle weight transfer: retardation -- 15.2 Vehicle weight transfer: acceleration -- 15.3 Maximum possible acceleration: level road -- 15.4 Transferred weight: vehicle in curved path -- Exercises -- 16. Simple harmonic motion (C16) -- 16.1 The conical pendulum -- 16.2 The Watt centrifugal governor -- 16.3 The simple pendulum -- Exercises -- 17. Relative velocity (C17) -- 17.1 Definition and diagrams -- 17.2 Angular velocity of a link or lever -- 17.3 Relative velocity of points on a wheel -- Exercises -- Answers to Exercises.

DOI: 10.1007/978-94-009-5943-9

URL: Volltext (lizenzpflichtig)

URL: lizenzpflichtig

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Online-Ressource

MPI Ethno. Forsch.

Online-Ressource

Motor Vehicle Science Part 1 (1982)

Kett, P. W.

Dordrecht : Springer Netherlands

zur Merkliste hinzufügen auf der Merkliste

Details

ISBN: 9789400959460

Sprache: Englisch

Seiten: Online-Ressource , online resource

Ausgabe: Springer eBook Collection. Humanities, Social Sciences and Law

Paralleltitel: Erscheint auch als

Schlagwort(e): Science (General) ; Social sciences. ; Humanities.

Kurzfassung: 1. Materials (A1) -- 1.1 Stress and strain -- 1.2 Hooke’s Law and Young’s Modulus -- 1.3 Testing of materials: load—extension graphs -- Exercises 1.1 -- 2. Heat -- 2.1 Linear and cubical expansion (B2) -- Exercises 2.1 -- 2.2 Sensible heat and latent heat (B3) -- 2.3 Specific heat capacity -- 2.4 Boiling point of liquids -- Exercises 2.2 -- 2.5 Elementary thermodynamics (B4) -- Exercises 2.3 -- 2.6 Compression ratios (B5) -- Exercises 2.4 -- 2.7 Engine power and efficiency (B6) -- Exercises 2.5 -- 2.8 Internal combustion engine cycles -- 2.9 Imep, bmep and mechanical efficiency -- Exercises 2.6 -- 2.10 Engine torque and brake power -- 2.11 Fuel consumption and thermal efficiency -- Exercises 2.7 -- 2.12 Engine testing and characteristic curves -- 2.13 Conservation of energy -- 2.14 Indicated power and mechanical efficiency -- Exercises 2.8 -- Exercises 2.9 -- 2.15 Fuel consumption and thermal efficiency -- 2.16 Ignition tests -- 2.17 Heat balance tests -- Exercises 2.10 -- 2.18 Fuels used in IC engines (B7) -- 3. Dynamics -- 3.1 Velocity and acceleration (C8) -- Exercises 3.1 -- 3.2 Free falling and projected bodies -- Exercises 3.2 -- 3.3 Angular and linear motion (C9) -- Exercises 3.3 -- 3.4 Friction and bearings (C10) -- Exercises 3.4 -- 3.5 Clutches -- Exercises 3.5 -- 3.6 Brakes -- Exercises 3.6 -- 4. Lubrication (D11) -- 4.1 Principles of bearings and their uses -- 4.2 Ball and roller bearings -- 4.3 Properties of lubricating oils -- 5. Statics -- 5.1 Triangle and polygon of forces (E13) -- 5.2 Piston, connecting rod and cylinder wall forces -- 5.3 Torque at the crankshaft -- 5.4 Piston displacement -- 5.5 Wheel balance -- Exercises 5.1 -- 5.6 Principle of moments (E14) -- 5.7 Centre of gravity -- Exercises 5.2 -- 5.8 Reaction of beam supports (E15) -- 5.9 Bending moments and shearing forces -- Exercises 5.3 -- 5.10 Springs and torsion bars (E16) -- Exercises 5.4 -- 5.11 Transmission and steering components (E17) -- Exercises 5.5 -- 6. Electricity (F18) -- 6.1 The secondary cell -- 6.2 Battery developments -- Exercises 6.1 -- 7. Miscellaneous exercises -- 7.1 Materials -- 7.2 Heat -- 7.3 Dynamics -- 7.4 Statics -- Answers to Exercises.

Kurzfassung: A motor vehicle technician has to attain high technological skills to enable him or her to diagnose faults and service modern transport vehicles and their components. Science is a branch of study concerned with the systematic investigation of observed facts, and forms an important foundation on which to build sound engineering practice. Such a background will stimulate personal development by increasing confidence and intellectual ability. This is the first of two books planned to cover the TEe U77/413 and 415 Motor Vehicle Science II and III Model programmes of study. Part 1 is intended to cover the requirements of Motor Vehicle Science II. The fundamental principles of engineering science have been applied to the motor vehicle in a systematic and progressive manner to enable the reader to follow most of the work on his or her initiative. The book is aimed mainly at the student who is attending a recognized college course leading to a Technician qualification. The importance of the college lecturer and his individual method of teaching the subject remains of prime importance to the student. The book is designed to become a valid source of information to assist the student both in and out of the classroom environment to attain his or her objective. Numerous fully worked and exercise examples are given. Plenty of practice in solving problems is an excellent way to gain knowledge of the subject, and improve confidence in preparation for an examination.

Beschreibung / Inhaltsverzeichnis: 1. Materials (A1)1.1 Stress and strain -- 1.2 Hooke’s Law and Young’s Modulus -- 1.3 Testing of materials: load-extension graphs -- Exercises 1.1 -- 2. Heat -- 2.1 Linear and cubical expansion (B2) -- Exercises 2.1 -- 2.2 Sensible heat and latent heat (B3) -- 2.3 Specific heat capacity -- 2.4 Boiling point of liquids -- Exercises 2.2 -- 2.5 Elementary thermodynamics (B4) -- Exercises 2.3 -- 2.6 Compression ratios (B5) -- Exercises 2.4 -- 2.7 Engine power and efficiency (B6) -- Exercises 2.5 -- 2.8 Internal combustion engine cycles -- 2.9 Imep, bmep and mechanical efficiency -- Exercises 2.6 -- 2.10 Engine torque and brake power -- 2.11 Fuel consumption and thermal efficiency -- Exercises 2.7 -- 2.12 Engine testing and characteristic curves -- 2.13 Conservation of energy -- 2.14 Indicated power and mechanical efficiency -- Exercises 2.8 -- Exercises 2.9 -- 2.15 Fuel consumption and thermal efficiency -- 2.16 Ignition tests -- 2.17 Heat balance tests -- Exercises 2.10 -- 2.18 Fuels used in IC engines (B7) -- 3. Dynamics -- 3.1 Velocity and acceleration (C8) -- Exercises 3.1 -- 3.2 Free falling and projected bodies -- Exercises 3.2 -- 3.3 Angular and linear motion (C9) -- Exercises 3.3 -- 3.4 Friction and bearings (C10) -- Exercises 3.4 -- 3.5 Clutches -- Exercises 3.5 -- 3.6 Brakes -- Exercises 3.6 -- 4. Lubrication (D11) -- 4.1 Principles of bearings and their uses -- 4.2 Ball and roller bearings -- 4.3 Properties of lubricating oils -- 5. Statics -- 5.1 Triangle and polygon of forces (E13) -- 5.2 Piston, connecting rod and cylinder wall forces -- 5.3 Torque at the crankshaft -- 5.4 Piston displacement -- 5.5 Wheel balance -- Exercises 5.1 -- 5.6 Principle of moments (E14) -- 5.7 Centre of gravity -- Exercises 5.2 -- 5.8 Reaction of beam supports (E15) -- 5.9 Bending moments and shearing forces -- Exercises 5.3 -- 5.10 Springs and torsion bars (E16) -- Exercises 5.4 -- 5.11 Transmission and steering components (E17) -- Exercises 5.5 -- 6. Electricity (F18) -- 6.1 The secondary cell -- 6.2 Battery developments -- Exercises 6.1 -- 7. Miscellaneous exercises -- 7.1 Materials -- 7.2 Heat -- 7.3 Dynamics -- 7.4 Statics -- Answers to Exercises.

DOI: 10.1007/978-94-009-5946-0

URL: Volltext (lizenzpflichtig)

URL: lizenzpflichtig

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