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PHY130 Physics for Engineering I Sem July-Nov 2010

[Department of Applied Sciences] Page 1

COLLEGE PHYSICS, An Integrated Approach to Forces & Kinematics, 3 rd Edition,Giambattista & Richardsons

Chapter Referred pages in textbookChapter 1 System of Units 1.1 Basic and derived quantities, system of units, basic and

derived units, unit conversion.1.2 Dimensional analysis- chap 1, page 8-12, -exercises, page 20, 22 (1.5 and 1.6)

Chapter 2 Kinematics in onedimension

2.1 Displacement2.2 Average and instantaneous velocity2.3 Average and instantaneous acceleration.-chap 3, page72-89,-exercises, page101-105,108-1112.4 Motion at constant acceleration-chap 4, page112-123, -exercises, page136-139, 142-1452.5 Falling object.-chap 4, page 123-125, Exercise, page139-140,142-145

Chapter 3 Kinematics in two

dimensions3.1 Scalars and Vector-page 28 (chap2)3.2 Addition of vector- Graphical and Component Method

-page28 35, Exercises, page 62-633.3 Subtraction and multiplication of a vector by scalar-page 73-77,3.4 Projectile Motion-chap 4, page125-131, Exercise, page140-141, 143-145

Chapter 4 Newtons laws of motion

4.1 Force4.2 First Law4.3 Second law4.4 Third law4.5 Further application of Ne wtons Law: frictional

force, static equilibrium under concurrent force.-Chap2, page 25, 35-59, 91-96,273-285, Exercises, 60-62 ,63-71,105-107,301-304

Chapter 5 Work and Energy 5.1 Work done by constant force

5.2 Kinetic Energy and Work energy Principle5.3 Potential Energy

5.4 Mechanical Energy and Its Conservation-chap 6, page 186-205, -exercises, page 215-219, 221-224

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PHY130 Physics for Engineering I Sem July-Nov 2010

[Department of Applied Sciences] Page 2

Chapter 6 Linear Momentum 6.1 Momentum and Its conservation

6.2 Collision and Impulse6.3 Conservation of energy and momentum6.4 Elastic and Inelastic collision in one dimension-chap 7, page225-237, 242-246, -exercises, page 250-254, 255-256,257-259

Chapter 7 Rotational Motion 7.1 Angular Quantities

7.2 Constant angular acceleration.-chap 5, page146-157, 164-170, -exercises, page173-176,177-178,179-181

7.3 Torque

-chap 8, page266-271, 285, -exercises, page 296-

299,300-301

Chapter 8 Matter 8.1 Elasticity: Stress and Strain

-chap 10, page358-360, -exercise, page 3858.2 Pascal Principle

8.3 Buoyancy andArchimedes

Principle8.4 Fluid in Motion: Flow rate and equation of continuity-chap 9, page 316-334, -exercises, page346-350,352-355

Chapter 9 Thermodynamics 9.1 Temperature, thermal expansion and the ideal Gas Law

-chap 13, page 457-464, 466-470, -exercises, page481-4859.2 Heat: Specific heat capacity, calorimetry and latent heat-chap 14, page492-497, 500-506, -exercises, page518-520, 521-522, 5249.3 The first law of thermodynamics

9.4 Thermodynamics Processes and the first law9.5 The second law of thermodynamics9.6 Heat Engines.-chap 15, page 527-533, 537-540, -exercises, page550-553, 555