College Physics (Solution Manuals) by Raymond A. Serway and Chris Vuille
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College Physics (Instructor's Solution Manuals)
written by
Raymond A. Serway and
Chris Vuille .
College Physics is written for a one-year course in introductory physics usually taken by students
majoring in biology, the health professions, or other disciplines, including environmental, earth,
and social sciences, and technical fields such as architecture. The mathematical techniques used in
this book include algebra, geometry, and trigonometry, but not calculus. Drawing on positive feedback
from users of the ninth edition, analytics gathered from both professors and students who use
Enhanced WebAssign, as well as reviewers’ suggestions, we have refined the text to better meet the
needs of students and teachers.
This textbook, which covers the standard topics in classical physics and twentieth-century
physics, is divided into six parts. Part 1 (Chapters 1–9) deals with Newtonian mechanics and the
physics of fluids; Part 2 (Chapters 10–12) is concerned with heat and thermodynamics; Part 3
(Chapters 13 and 14) covers wave motion and sound; Part 4 (Chapters 15–21) develops the concepts of
electricity and magnetism; Part 5 (Chapters 22–25) treats the properties of light and the field of
geometric and wave optics; and Part 6 (Chapters 26–30) provides an introduction to special
relativity, quantum physics, atomic physics, and nuclear physics.
College Physics (Instructor's Solution Manuals)
written by
Raymond A. Serway and
Chris Vuille
cover the following topics.
Part 1 Mechanics
1. Introduction
1.1 Standards of Length, Mass, and Time
1.2 The Building Blocks of Matter
1.3 Dimensional Analysis 5
1.4 Uncertainty in Measurement and Significant Figures
1.5 Conversion of Units 11
1.6 Estimates and Order-of-Magnitude Calculations
1.7 Coordinate Systems
1.8 Trigonometry
1.9 Problem-Solving Strategy
Summary
2. motion in one Dimension
2.1 Displacement
2.2 Velocity
2.3 Acceleration
2.4 Motion Diagrams
2.5 One-Dimensional Motion with Constant Acceleration
2.6 Freely Falling Objects
Summary
3. Vectors and Two-Dimensional motion
3.1 Vectors and Their Properties
3.2 Components of a Vector
3.3 Displacement, Velocity, and Acceleration in Two Dimensions
3.4 Motion in Two Dimensions
3.5 Relative Velocity
Summary
4. The laws of motion
4.1 Forces
4.2 Newton’s First Law
4.3 Newton’s Second Law
4.4 Newton’s Third Law
4.5 Applications of Newton’s Laws
4.6 Forces of Friction
Summary
5. energy
5.1 Work
5.2 Kinetic Energy and the Work–Energy Theorem
5.3 Gravitational Potential Energy
5.4 Spring Potential Energy
5.5 Systems and Energy Conservation
5.6 Power
5.7 Work Done by a Varying Force
Summary
6. momentum and Collisions
6.1 Momentum and Impulse
6.2 Conservation of Momentum
6.3 Collisions
6.4 Glancing Collisions
6.5 Rocket Propulsion
Summary
7. Rotational motion and the law of Gravity
7.1 Angular Speed and Angular Acceleration
7.2 Rotational Motion Under Constant Angular Acceleration
7.3 Relations Between Angular and Linear Quantities
7.4 Centripetal Acceleration
7.5 Newtonian Gravitation
7.6 Kepler’s Laws
Summary
8. Rotational equilibrium and Rotational Dynamics
8.1 Torque 241
8.2 Torque and the Two Conditions for Equilibrium
8.3 The Center of Gravity
8.4 Examples of Objects in Equilibrium
8.5 Relationship Between Torque and Angular Acceleration
8.6 Rotational Kinetic Energy
8.7 Angular Momentum
Summary
9. Solids and Fluids
9.1 States of Matter
9.2 Density and Pressure
9.3 The Deformation of Solids
9.4 Variation of Pressure with Depth
9.5 Pressure Measurements
9.6 Buoyant Forces and Archimedes’ Principle
9.7 Fluids in Motion
9.8 Other Applications of Fluid Dynamics
9.9 Surface Tension, Capillary Action, and Viscous Fluid Flow
9.10 Transport Phenomena
Summary
Part 2 Thermodynamics
10. Thermal Physics
10.1 Temperature and the Zeroth Law of Thermodynamics
10.2 Thermometers and Temperature Scales
10.3 Thermal Expansion of Solids and Liquids
10.4 Macroscopic Description of an Ideal Gas
10.5 The Kinetic Theory of Gases
Summary
11. energy in Thermal Processes
11.1 Heat and Internal Energy
11.2 Specific Heat
11.3 Calorimetry
11.4 Latent Heat and Phase Change
11.5 Energy Transfer
11.6 Global Warming and Greenhouse Gases
Summary
12. The laws of Thermodynamics
12.1 Work in Thermodynamic Processes
12.2 The First Law of Thermodynamics
12.3 Thermal Processes
12.4 Heat Engines and the Second Law of Thermodynamics
12.5 Entropy
12.6 Human Metabolism
Summary
Part 3 Vibrations and Waves
13. Vibrations and Waves
13.1 Hooke’s Law
13.2 Elastic Potential Energy
13.3 Comparing Simple Harmonic Motion with Uniform Circular Motion
13.4 Position, Velocity, and Acceleration as a Function of Time
13.5 Motion of a Pendulum
13.6 Damped Oscillations
13.7 Waves 464
13.8 Frequency, Amplitude, and Wavelength
13.9 The Speed of Waves on Strings
13.10 Interference of Waves
13.11 Reflection of Waves
Summary
14. Sound
14.1 Producing a Sound Wave
14.2 Characteristics of Sound Waves
14.3 The Speed of Sound
14.4 Energy and Intensity of Sound Waves
14.5 Spherical and Plane Waves
14.6 The Doppler Effect
14.7 Interference of Sound Waves
14.8 Standing Waves
14.9 Forced Vibrations and Resonance
14.10 Standing Waves in Air Columns
14.11 Beats
14.12 Quality of Sound
14.13 The Ear
Summary
AppendiX
a: mathematics Review
b : An Abbreviated Table of Isotopes
c : Some useful Tables
d: SI units
Answers to Quick Quizzes, example Questions, odd-Numbered Warm-upxercises, Conceptual Questions,
and Problems
Index
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