1000 Solved Problems in Modern Physics 2010th Edition by Ahmad Kamal ISBN 9783642119422 3642119425

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ISBN 10: 3642119425
ISBN 13: 9783642119422 
Author: Ahmad A. Kamal

This book is targeted mainly to the undergraduate students of USA, UK and other European countries, and the M. Sc of Asian countries, but will be found useful for the graduate students, Graduate Record Examination (GRE), Teachers and Tutors. This is a by-product of lectures given at the Osmania University, University of Ottawa and University of Tebrez over several years, and is intended to assist the students in their assignments and examinations. The book covers a wide spectrum of disciplines in Modern Physics, and is mainly based on the actual examination papers of UK and the Indian Universities. The selected problems display a large variety and conform to syllabi which are currently being used in various countries. The book is divided into ten chapters. Each chapter begins with basic concepts containing a set of formulae and explanatory notes for quick reference, followed by a number of problems and their detailed solutions. The problems are judiciously selected and are arranged section-wise. The so- tions are neither pedantic nor terse. The approach is straight forward and step– step solutions are elaborately provided. More importantly the relevant formulas used for solving the problems can be located in the beginning of each chapter. There are approximately 150 line diagrams for illustration. Basic quantum mechanics, elementary calculus, vector calculus and Algebra are the pre-requisites.

1000 Solved Problems in Modern Physics 2010th Table of contents:

1 Kinematics and Statics

1.1 Basic Concepts and Formulae

1.2 Problems

1.2.1 Motion in One Dimension

1.2.2 Motion in Resisting Medium

1.2.3 Motion in Two Dimensions

1.2.4 Force and Torque

1.2.5 Centre of Mass

1.2.6 Equilibrium

1.3 Solutions

1.3.1 Motion in One Dimension

1.3.2 Motion in Resisting Medium

1.3.3 Motion in Two Dimensions

1.3.4 Force and Torque

1.3.5 Centre of Mass

1.3.6 Equilibrium

2 Particle Dynamics

2.1 Basic Concepts and Formulae

2.2 Problems

2.2.1 Motion of Blocks on a Plane

2.2.2 Motion on Incline

2.2.3 Work, Power, Energy

2.2.4 Collisions

2.2.5 Variable Mass

2.3 Solutions

2.3.1 Motion of Blocks on a Plane

2.3.2 Motion on Incline

2.3.3 Work, Power, Energy

2.3.4 Collisions

2.3.5 Variable Mass

3 Rotational Kinematics

3.1 Basic Concepts and Formulae

3.2 Problems

3.2.1 Motion in a Horizontal Plane

3.2.2 Motion in a Vertical Plane

3.2.3 Loop-the-Loop

3.3 Solutions

3.3.1 Motion in a Horizontal Plane

3.3.2 Motion in a Vertical Plane

3.3.3 Loop-the-Loop

4 Rotational Dynamics

4.1 Basic Concepts and Formulae

4.2 Problems

4.2.1 Moment of Inertia

4.2.2 Rotational Motion

4.2.3 Coriolis Acceleration

4.3 Solutions

4.3.1 Moment of Inertia

4.3.2 Rotational Motion

4.3.3 Coriolis Acceleration

5 Gravitation

5.1 Basic Concepts and Formulae

5.2 Problems

5.2.1 Field and Potential

5.2.2 Rockets and Satellites

5.3 Solutions

5.3.1 Field and Potential

5.3.2 Rockets and Satellites

6 Oscillations

6.1 Basic Concepts and Formulae

6.2 Problems

6.2.1 Simple Harmonic Motion (SHM)

6.2.2 Physical Pendulums

6.2.3 Coupled Systems of Masses and Springs

6.2.4 Damped Vibrations

6.3 Solutions

6.3.1 Simple Harmonic Motion (SHM)

6.3.2 Physical Pendulums

6.3.3 Coupled Systems of Masses and Springs

6.3.4 Damped Vibrations

7 Lagrangian and Hamiltonian Mechanics

7.1 Basic Concepts and Formulae

7.2 Problems

7.3 Solutions

8 Waves

8.1 Basic Concepts and Formulae

8.2 Problems

8.2.1 Vibrating Strings

8.2.2 Waves in Solids

8.2.3 Waves in Liquids

8.2.4 Sound Waves

8.2.5 Doppler Effect

8.2.6 Shock Wave

8.2.7 Reverberation

8.2.8 Echo

8.2.9 Beat Frequency

8.2.10 Waves in Pipes

8.3 Solutions

8.3.1 Vibrating Strings

8.3.2 Waves in Solids

8.3.3 Waves in Liquids

8.3.4 Sound Waves

8.3.5 Doppler Effect

8.3.6 Shock Wave

8.3.7 Reverberation

8.3.8 Echo

8.3.9 Beat Frequency

8.3.10 Waves in Pipes

9 Fluid Dynamics

9.1 Basic Concepts and Formulae

9.2 Problems

9.2.1 Bernoulli’s Equation

9.2.2 Torricelli’s Theorem

9.2.3 Viscosity

9.3 Solutions

9.3.1 Bernoulli’s Equation

9.3.2 Torricelli’s Theorem

9.3.3 Viscosity

10 Heat and Matter

10.1 Basic Concepts and Formulae

10.2 Problems

10.2.1 Kinetic Theory of Gases

10.2.2 Thermal Expansion

10.2.3 Heat Transfer

10.2.4 Specific Heat and Latent Heat

10.2.5 Thermodynamics

10.2.6 Elasticity

10.2.7 Surface Tension

10.3 Solutions

10.3.1 Kinetic Theory of Gases

10.3.2 Thermal Expansion

10.3.3 Heat Transfer

10.3.4 Specific Heat and Latent Heat

10.3.5 Thermodynamics

10.3.6 Elasticity

10.3.7 Surface Tension

11 Electrostatics

11.1 Basic Concepts and Formulae

11.2 Problems

11.2.1 Electric Field and Potential

11.2.2 Gauss’ Law

11.2.3 Capacitors

11.3 Solutions

11.3.1 Electric Field and Potential

11.3.2 Gauss’ Law

11.3.3 Capacitors

12 Electric Circuits

12.1 Basic Concepts and Formulae

12.2 Problems

12.2.1 Resistance, EMF, Current, Power

12.2.2 Cells

12.2.3 Instruments

12.2.4 Kirchhoff’s Laws

12.3 Solutions

12.3.1 Resistance, EMF, Current, Power

12.3.2 Cells

12.3.3 Instruments

12.3.4 Kirchhoff’s Laws

13 Electromagnetism I

13.1 Basic Concepts and Formulae

13.2 Problems

13.2.1 Motion of Charged Particles in Electricand Magnetic Fields

13.2.2 Magnetic Induction

13.2.3 Magnetic Force

13.2.4 Magnetic Energy, Magnetic Dipole Moment

13.2.5 Faraday’s Law

13.2.6 Hall Effect

13.3 Solutions

13.3.1 Motion of Charged Particles in Electricand Magnetic Fields

13.3.2 Magnetic Induction

13.3.3 Magnetic Force

13.3.4 Magnetic Energy, Magnetic Dipole Moment

13.3.5 Faraday’s Law

13.3.6 Hall Effect

14 Electromagnetism II

14.1 Basic Concepts and Formulae

14.2 Problems

14.2.1 The RLC Circuits

14.2.2 Maxwell’s Equations, Electromagnetic Waves, Poynting Vector

14.2.3 Phase Velocity and Group Velocity

14.2.4 Waveguides

14.3 Solutions

14.3.1 The RLC Circuits

14.3.2 Maxwell’s Equations and Electromagnetic Waves, Poynting Vector

14.3.3 Phase Velocity and Group Velocity

14.3.4 Waveguides

15 Optics

15.1 Basic Concepts and Formulae

15.2 Problems

15.2.1 Geometrical Optics

15.2.2 Prisms and Lenses

15.2.3 Matrix Methods

15.2.4 Interference

15.2.5 Diffraction

15.2.6 Polarization

15.3 Solutions

15.3.1 Geometrical Optics

15.3.2 Prisms and Lenses

15.3.3 Matrix Methods

15.3.4 Interference

15.3.5 Diffraction

15.3.6 Polarization

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