Atjaunināt sīkdatņu piekrišanu

Reeds Vol 2: Applied Mechanics for Marine Engineers [Mīkstie vāki]

3.00/5 (5 ratings by Goodreads)
,
  • Formāts: Paperback / softback, 576 pages, height x width: 234x156 mm, weight: 860 g
  • Sērija : Reeds Marine Engineering and Technology Series
  • Izdošanas datums: 26-Feb-2015
  • Izdevniecība: Thomas Reed Publications
  • ISBN-10: 1472910567
  • ISBN-13: 9781472910561
Citas grāmatas par šo tēmu:
  • Mīkstie vāki
  • Cena: 61,65 €*
  • * Šī grāmata vairs netiek publicēta. Jums tiks paziņota lietotas grāmatas cena
  • Šī grāmata vairs netiek publicēta. Jums tiks paziņota lietotas grāmatas cena.
  • Daudzums:
  • Ielikt grozā
  • Pievienot vēlmju sarakstam
Reeds Vol 2: Applied Mechanics for Marine EngineersPalielināt
  • Formāts: Paperback / softback, 576 pages, height x width: 234x156 mm, weight: 860 g
  • Sērija : Reeds Marine Engineering and Technology Series
  • Izdošanas datums: 26-Feb-2015
  • Izdevniecība: Thomas Reed Publications
  • ISBN-10: 1472910567
  • ISBN-13: 9781472910561
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781472910561.html
Keywords:
The book covers the principal topics in applied mechanics for professional trainees studying Merchant Navy Marine Engineering Certificates of Competency (CoC) as well as the core syllabi in applied mechanics for undergraduates studying for BSc, BEng and MEng degrees in marine engineering, naval architecture and other marine technology related programmes.

The revised version takes into account the need of these students, recognising recent changes to the Merchant Navy syllabus and current pathways to a sea-going engineering career, including National diplomas, Higher National Diploma and degree courses.

Basic principles are dealt with, beginning at a fairly elemental stage, with this new edition applying the underlying principles to a shipping environment. Each chapter has fully worked examples interwoven into the text, with test examples set at the end of each chapter. Other revisions include examples reflecting modern machines and practice, current legislation and current syllabi.

Papildus informācija

Authoritative guide to the principles of applied mechanics within a marine setting.
Preface ix
Introduction 1(4)
Systeme International d'Unites (SI Units)
3(1)
Base SI units
3(1)
Decimal fractions of SI units
4(1)
Decimal multiples of SI units
4(1)
1 Statics
5(26)
Vector and Scalar Quantities
6(1)
A Resultant Force
7(1)
The Equilibrant Force
8(1)
The Triangle of Forces
9(1)
The Polygon of Forces
9(1)
Concurrent and Parallel Coplanar Forces
9(1)
Bow's Notation
10(1)
Components of a Force
11(1)
Slings
12(4)
Jib Cranes
16(3)
Reciprocating Engine (Running Gear) Mechanism
19(2)
Framed Structures
21(4)
Non-Coplanar Forces
25(6)
2 Kinematics
31(28)
Linear Motion
31(3)
Velocity--Time Graphs
34(3)
Equations
37(2)
Gravitational Motion
39(1)
Angular Motion
40(1)
Equations
41(1)
Relation between Linear and Angular Motion
42(2)
Instantaneous Values
44(1)
Change of Velocity
45(2)
Relative Velocity
47(5)
Instantaneous Centre of Rotation (CLASS I)
52(2)
Projectiles (CLASS I)
54(5)
3 Dynamics
59(14)
Linear Momentum
64(3)
Angular Momentum
67(1)
Turning Moment
68(5)
4 Work, Power and Energy
73(19)
Power
76(2)
Power by Torque
78(3)
Energy
81(7)
Fluctuation of Speed and Energy (CLASS I)
88(4)
5 Centripetal Forces
92(32)
Side Skidding and Overturning of Vehicles
96(4)
Balancing
100(2)
Balancing a Number of Rotating Masses
102(1)
Stress in Flywheel Rims due to Centrifugal Force
103(2)
Speed-Sensing Devices
105(1)
Conical Pendulum
105(1)
Simple Unloaded Governor
106(2)
Porter Governor (CLASS I)
108(2)
Hartnell Governor (CLASS I)
110(3)
Simple Harmonic Motion (CLASS I)
113(4)
The Simple Pendulum (CLASS I)
117(2)
Vibrations of a Spring (CLASS I)
119(5)
6 Sliding Friction
124(19)
Horizontal Planes
124(5)
Inclined Planes
129(1)
Forces parallel to the plane
129(4)
Acceleration on Inclined Plane
133(2)
Forces Not Parallel to Inclined Plane (CLASS I)
135(5)
Efficiency of the Square Thread (CLASS I)
140(3)
7 Moments
143(25)
Couple
150(1)
Centre of Gravity
150(6)
Centroid of Irregular Area
156(2)
Second Moments
158(3)
Theorem of Parallel Axes (CLASS I)
161(1)
Polar Second Moments
162(6)
8 Lifting Machines
168(23)
Crane and Rope Pulley Blocks
169(4)
Wheel and Axle
173(3)
Wheel and Differential Axle
176(1)
Differential Pulley Blocks
177(2)
Worm and Worm Wheel
179(1)
Screw Jack
180(1)
Worm-Driven Screw Jack
181(1)
Warwick Screw
182(1)
Crab Winches
183(1)
Hydraulic Jack
184(2)
Experimental Results
186(5)
9 Stress and Strain
191(36)
Ultimate Tensile Strength
193(2)
Working Stress and Factor of Safety
195(1)
Strain
196(1)
Elasticity
196(2)
Modulus of Elasticity
198(1)
Tensile Test to Destruction
199(3)
Strength of Pressure Vessels
202(5)
Stresses in Compound Bars
207(1)
Equivalent Modulus of Elasticity of Compound Bars
208(2)
Stress due to Restricted Thermal Expansion
210(2)
Stress due to Thermal Expansion of Compound Bars (CLASS I)
212(2)
Elastic Strain Energy (CLASS I)
214(3)
Suddenly Applied and Shock Loads (CLASS I)
217(3)
Stresses on Oblique Planes (CLASS I)
220(7)
10 Bending of Beams
227(36)
Shearing Forces and Bending Moments
231(2)
Shearing Force and Bending Moment Diagrams
233(10)
Standard Examples
243(2)
Stresses in Beams
245(6)
Modulus of Section
251(3)
Deflection of Beams (CLASS I)
254(3)
Combined Bending and Direct Stress
257(6)
11 Torsion of Shafts
263(23)
Relation between Torque and Stress
267(1)
Experiment to Determine Modulus of Rigidity
268(2)
Torsional Resilience (CLASS I)
270(1)
Relationship between Torque and Power
271(1)
Maximum and Mean Torque
272(1)
Transmission of Power through Coupling Bolts
273(1)
Reciprocating Engine Mechanism
274(3)
Crank Effort
277(1)
Hydraulic Steering Gear
278(3)
Deflection of a Closely Coiled Helical Spring (CLASS I)
281(5)
12 Hydrostatics: Study of Fluids at Rest
286(20)
Density
286(1)
Mixing of Liquids of Different Densities
286(2)
Apparent Loss of Weight of a Submerged Body
288(2)
Floating Bodies
290(1)
Pressure Head
291(2)
Manometers
293(2)
Load on an Immersed Service
295(2)
Transmission of Power
297(1)
Centre of Pressure
297(5)
Hydrostatic Force and Centre of Pressure for Non-Mixing Liquids (CLASS I)
302(4)
13 Hydrodynamics: Study of Fluids in Motion
306(23)
Discharge through an Orifice
308(2)
Bernoulli's Equation (CLASS I)
310(2)
Effect of Friction (CLASS I)
312(2)
Venturi Meter (CLASS I)
314(1)
Meter Coefficient (CLASS I)
315(2)
Friction in Pipes (CLASS I)
317(1)
Impact of Water Jet (CLASS I)
318(1)
Centrifugal Pump (CLASS I)
319(3)
Manometric Head (CLASS I)
322(1)
Pump Power (CLASS I)
323(1)
Manometric Efficiency (CLASS I)
323(1)
Orifice Control (CLASS I)
324(5)
Solutions to Practice Examples 329(92)
Selection of Examination Questions Class Two 421(14)
Solutions to Examination Questions Class Two 435(46)
Selection of Examination Questions Class One 481(18)
Solutions to Examination Questions Class One 499(58)
Index 557
Paul A Russell was Head of School at the National Sea Training Centre at North West Kent College, UK as well as lecturer in Marine Engineering at the University of Greenwich. He is Managing Director of Thamesview Maritime Limited, a marine engineering consultancy specialising in the professional development of marine engineers and has previously worked as the Editor for the journal Marine Propulsion and Auxiliary Machinery. Paul has also completed two terms in office as the Chair of the South East branch of the Institute of Marine Engineering Science and Technology.