Sears and Zemansky's University Physics for JEE Mains and Advance Vol I

Cover
Title Page
Copyright
Brief Contents
Build Skills
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Bring Physics to Life
Make a Difference with Mastering Physics®
About The Authors
About The Adapters
How to Succeed in Physics by Really Trying
Preface
Detailed Contents
Chapter 1: Units, Physical Quantities, and Vectors
	1.1 The Nature of Physics
	1.2 Solving Physics Problems
	1.3 Standards and Units
	1.4 Unit Consistency and Conversions
	1.5 Uncertainty and Significant Figures
	1.6 Estimates and Orders of Magnitude
	1.7 Vectors and Vector Addition
	1.8 Components of Vectors
	1.9 Unit Vectors
	1.10 Products of Vectors
	Summary
	Questions/Exercises/Problems
Chapter 2: Motion Alonga Straight Line
	2.1 Displacement, Time, and Average Velocity
	2.2 Instantaneous Velocity
	2.3 Average and Instantaneous Acceleration
	2.4 Motion with Constant Acceleration
	2.5 Freely Falling Bodies
	2.6 Velocity and Position by Integration
	Summary
	Questions/Exercises/Problems
Chapter 3: Motion in Two or Three Dimensions
	3.1 Position and Velocity Vectors
	3.2 The Acceleration Vector
	3.3 Projectile Motion
	3.4 Motion in a Circle
	3.5 Relative Velocity
	Summary
	Questions/Exercises/Problems
Chapter 4: Newton’s Laws of Motion
	4.1 Force and Interactions
	4.2 Newton’s First Law
	4.3 Newton’s Second Law
	4.4 Mass and Weight
	4.5 Newton’s Third Law
	4.6 Free-Body Diagrams
	Summary
	Questions/Exercises/Problems
Chapter 5: Applying Newton’s Laws
	5.1 Using Newton’s First Law: Particles in Equilibrium
	5.2 Using Newton’s Second Law: Dynamics of Particles
	5.3 Frictional Forces
	5.4 Dynamics of Circular Motion
	5.5 The Fundamental Forces of Nature
	Summary
	Questions/Exercises/Problems
Chapter 6: Work and Kinetic Energy
	6.1 Work
	6.2 Kinetic Energy and the Work–Energy Theorem
	6.3 Work and Energy with Varying Forces
	6.4 Power
	Summary
	Questions/Exercises/Problems
Chapter 7: Potential Energy and Energy Conservation
	7.1 Gravitational Potential Energy
	7.2 Elastic Potential Energy
	7.3 Conservative and Nonconservative Forces
	7.4 Force and Potential Energy
	7.5 Energy Diagrams
	Summary
	Questions/Exercises/Problems
Chapter 8: Momentum, Impulse, and Collisions
	8.1 Momentum and Impulse
	8.2 Conservation of Momentum
	8.3 Momentum Conservation and Collisions
	8.4 Elastic Collisions
	8.5 Center of Mass
	8.6 Rocket Propulsion
	Summary
	Questions/Exercises/Problems
Chapter 9: Rotation of Rigid Bodies
	9.1 Angular Velocity and Acceleration
	9.2 Rotation with Constant Angular Acceleration
	9.3 Relating Linear and Angular Kinematics
	9.4 Energy in Rotational Motion
	9.5 Parallel-Axis Theorem
	9.6 Moment-of-Inertia Calculations
	Summary
	Questions/Exercises/Problems
Chapter 10: Dynamics of Rotational Motion
	10.1 Torque
	10.2 Torque and Angular Acceleration for a Rigid Body
	10.3 Rigid-Body Rotation About a Moving Axis
	10.4 Work and Power in Rotational Motion
	10.5 Angular Momentum
	10.6 Conservation of Angular Momentum
	10.7 Gyroscopes and Precession
	Summary
	Questions/Exercises/Problems
Chapter 11: Equilibrium and Elasticity
	11.1 Conditions for Equilibrium
	11.2 Center of Gravity
	11.3 Solving Rigid-Body Equilibrium Problems
	11.4 Stress, Strain, and Elastic Moduli
	11.5 Elasticity and Plasticity
	11.6 Energy Stored in a Stretched Wire
	Summary
	Questions/Exercises/Problems
Chapter 12: Fluid Mechanics
	12.1 Density
	12.2 Pressure in a Fluid
	12.3 Buoyancy
	12.4 Fluid Flow
	12.5 Bernoulli’s Equation
	12.6 Viscosity and Turbulence
	Summary
	Questions/Exercises/Problems
Chapter 13: Gravitation
	13.1 Newton’s Law of Gravitation
	13.2 Weight
	13.3 Gravitational Potential Energy
	13.4 The Motion of Satellites
	13.5 Kepler’s Laws and the Motion of Planets
	13.6 Spherical Mass Distributions
	13.7 Apparent Weight and the Earth’s Rotation
	13.8 Black Holes
	Summary
	Questions/Exercises/Problems
Chapter 14: Periodic Motion
	14.1 Describing Oscillation
	14.2 Simple Harmonic Motion
	14.3 Energy in Simple Harmonic Motion
	14.4 Applications of Simple Harmonic Motion
	14.5 The Simple Pendulum
	14.6 The Physical Pendulum
	14.7 Damped Oscillations
	14.8 Forced Oscillations and Resonance
	Summary
	Questions/Exercises/Problems
Chapter 15: Mechanical Waves
	15.1 Types of Mechanical Waves
	15.2 Periodic Waves
	15.3 Mathematical Description of a Wave
	15.4 Speed of a Transverse Wave
	15.5 Energy in Wave Motion
	15.6 Wave Interference, Boundary Conditions, and Superposition
	15.7 Standing Waves on a String
	15.8 Normal Modes of a String
	Summary
	Questions/Exercises/Problems
Chapter 16: Sound and Hearing
	16.1 Sound Waves
	16.2 Speed of Sound Waves
	16.3 Sound Intensity
	16.4 Standing Sound Waves and Normal Modes
	16.5 Resonance and Sound
	16.6 Interference of Waves
	16.7 Beats
	16.8 The Doppler Effect
	16.9 Shock Waves
	Summary
	Questions/Exercises/Problems
Chapter 17: Temperature and Heat
	17.1 Temperature and Thermal Equilibrium
	17.2 Thermometers and Temperature Scales
	17.3 Gas Thermometers and the Kelvin Scale
	17.4 Thermal Expansion
	17.5 Quantity of Heat
	17.6 Calorimetry and Phase Changes
	17.7 Mechanisms of Heat Transfer
	Summary
	Questions/Exercises/Problems
Chapter 18: Thermal Properties of Matter
	18.1 Equations of State
	18.2 Molecular Properties of Matter
	18.3 Kinetic-Molecular Model of an Ideal Gas
	18.4 Heat Capacities
	18.5 Molecular Speeds
	18.6 Phases of Matter
	Summary
	Questions/Exercises/Problems
Chapter 19: The First Law of Thermodynamics
	19.1 Thermodynamic Systems
	19.2 Work Done During Volume Changes
	19.3 Paths Between Thermodynamic States
	19.4 Internal Energy and the First Law of Thermodynamics
	19.5 Kinds of Thermodynamic Processes
	19.6 Internal Energy of an Ideal Gas
	19.7 Heat Capacities of an Ideal Gas
	19.8 Adiabatic Processes for an Ideal Gas
	Summary
	Questions/Exercises/Problems
Appendix  A
Appendix  B
Appendix  C
Appendix  D
Appendix  E
Appendix G
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