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Product details:

  • ISBN-10 ‏ : ‎ 111883688X
  • ISBN-13 ‏ : ‎ 978-1118836880
  • Author: John D. Cutnell; Kenneth W. Johnson

Cutnell and Johnson has been the #1 text in the algebra-based physics market for almost 20 years. The 10th edition brings on new co-authors: David Young and Shane Stadler (both out of LSU). The Cutnell offering now includes enhanced features and functionality. The authors have been extensively involved in the creation and adaptation of valuable resources for the text. This edition includes chapters 1-17.

Table of contents:

  1. Acknowledgments
  2. 1 Introduction and Mathematical Concepts
  3. 1.1 The Nature of Physics
  4. 1.2 Units
  5. 1.3 The Role of Units in Problem Solving
  6. 1.4 Trigonometry
  7. 1.5 Scalars and Vectors
  8. 1.6 Vector Addition and Subtraction
  9. 1.7 The Components of a Vector
  10. 1.8 Addition of Vectors by Means of Components
  11. CONCEPT SUMMARY
  12. 2 Kinematics in One Dimension
  13. 2.1 Displacement
  14. 2.2 Speed and Velocity
  15. 2.3 Acceleration
  16. 2.4 Equations of Kinematics for Constant Acceleration
  17. 2.5 Applications of the Equations of Kinematics
  18. 2.6 Freely Falling Bodies
  19. 2.7 Graphical Analysis of Velocity and Acceleration
  20. CONCEPT SUMMARY
  21. 3 Kinematics in Two Dimensions
  22. 3.1 Displacement, Velocity, and Acceleration
  23. 3.2 Equations of Kinematics in Two Dimensions
  24. 3.3 Projectile Motion
  25. 3.4 Relative Velocity
  26. CONCEPT SUMMARY
  27. 4 Forces and Newton’s Laws of Motion
  28. 4.1 The Concepts of Force and Mass
  29. 4.2 Newton’s First Law of Motion
  30. 4.3 Newton’s Second Law of Motion
  31. 4.4 The Vector Nature of Newton’s Second Law of Motion
  32. 4.5 Newton’s Third Law of Motion
  33. 4.6 Types of Forces: An Overview
  34. 4.7 The Gravitational Force
  35. 4.8 The Normal Force
  36. 4.9 Static and Kinetic Frictional Forces
  37. 4.10 The Tension Force
  38. 4.11 Equilibrium Applications of Newton’s Laws of Motion
  39. 4.12 Nonequilibrium Applications of Newton’s Laws of Motion
  40. CONCEPT SUMMARY
  41. 5 Dynamics of Uniform Circular Motion
  42. 5.1 Uniform Circular Motion
  43. 5.2 Centripetal Acceleration
  44. 5.3 Centripetal Force
  45. 5.4 Banked Curves
  46. 5.5 Satellites in Circular Orbits
  47. 5.6 Apparent Weightlessness and Artificial Gravity
  48. 5.7 Vertical Circular Motion
  49. CONCEPT SUMMARY
  50. 6 Work and Energy
  51. 6.1 Work Done by a Constant Force
  52. 6.2 The Work–Energy Theorem and Kinetic Energy
  53. 6.3 Gravitational Potential Energy
  54. 6.4 Conservative Versus Nonconservative Forces
  55. 6.5 The Conservation of Mechanical Energy
  56. 6.6 Nonconservative Forces and the Work–Energy Theorem
  57. 6.7 Power
  58. 6.8 Other Forms of Energy and the Conservation of Energy
  59. 6.9 Work Done by a Variable Force
  60. CONCEPT SUMMARY
  61. 7 Impulse and Momentum
  62. 7.1 The Impulse–Momentum Theorem
  63. 7.2 The Principle of Conservation of Linear Momentum
  64. 7.3 Collisions in One Dimension
  65. 7.4 Collisions in Two Dimensions
  66. 7.5 Center of Mass
  67. CONCEPT SUMMARY
  68. 8 Rotational Kinematics
  69. 8.1 Rotational Motion and Angular Displacement
  70. 8.2 Angular Velocity and Angular Acceleration
  71. 8.3 The Equations of Rotational Kinematics
  72. 8.4 Angular Variables and Tangential Variables
  73. 8.5 Centripetal Acceleration and Tangential Acceleration
  74. 8.6 Rolling Motion
  75. 8.7 The Vector Nature of Angular Variables
  76. CONCEPT SUMMARY
  77. 9 Rotational Dynamics
  78. 9.1 The Action of Forces and Torques on Rigid Objects
  79. 9.2 Rigid Objects in Equilibrium
  80. 9.3 Center of Gravity
  81. 9.4 Newton’s Second Law for Rotational Motion About a Fixed Axis
  82. 9.5 Rotational Work and Energy
  83. 9.6 Angular Momentum
  84. CONCEPT SUMMARY
  85. 10 Simple Harmonic Motion and Elasticity
  86. 10.1 The Ideal Spring and Simple Harmonic Motion
  87. 10.2 Simple Harmonic Motion and the Reference Circle
  88. 10.3 Energy and Simple Harmonic Motion
  89. 10.4 The Pendulum
  90. 10.5 Damped Harmonic Motion
  91. 10.6 Driven Harmonic Motion and Resonance
  92. 10.7 Elastic Deformation
  93. 10.8 Stress, Strain, and Hooke’s Law
  94. CONCEPT SUMMARY
  95. 11 Fluids
  96. 11.1 Mass Density
  97. 11.2 Pressure
  98. 11.3 Pressure and Depth in a Static Fluid
  99. 11.4 Pressure Gauges
  100. 11.5 Pascal’s Principle
  101. 11.6 Archimedes’ Principle
  102. 11.7 Fluids in Motion
  103. 11.8 The Equation of Continuity
  104. 11.9 Bernoulli’s Equation
  105. 11.10 Applications of Bernoulli’s Equation
  106. 11.11 Viscous Flow
  107. CONCEPT SUMMARY
  108. 12 Temperature and Heat
  109. 12.1 Common Temperature Scales
  110. 12.2 The Kelvin Temperature Scale
  111. 12.3 Thermometers
  112. 12.4 Linear Thermal Expansion
  113. 12.5 Volume Thermal Expansion
  114. 12.6 Heat and Internal Energy
  115. 12.7 Heat and Temperature Change: Specific Heat Capacity
  116. 12.8 Heat and Phase Change: Latent Heat
  117. 12.9 Equilibrium Between Phases of Matter
  118. 12.10 Humidity
  119. CONCEPT SUMMARY
  120. 13 The Transfer of Heat
  121. 13.1 Convection
  122. 13.2 Conduction
  123. 13.3 Radiation
  124. 13.4 Applications
  125. CONCEPT SUMMARY
  126. 14 The Ideal Gas Law and Kinetic Theory
  127. 14.1 Molecular Mass, the Mole, and Avogadro’s Number
  128. 14.2 The Ideal Gas Law
  129. 14.3 Kinetic Theory of Gases
  130. 14.4 Diffusion
  131. CONCEPT SUMMARY
  132. 15 Thermodynamics
  133. 15.1 Thermodynamic Systems and Their Surroundings
  134. 15.2 The Zeroth Law of Thermodynamics
  135. 15.3 The First Law of Thermodynamics
  136. 15.4 Thermal Processes
  137. 15.5 Thermal Processes Using an Ideal Gas
  138. 15.6 Specific Heat Capacities
  139. 15.7 The Second Law of Thermodynamics
  140. 15.8 Heat Engines
  141. 15.9 Carnot’s Principle and the Carnot Engine
  142. 15.10 Refrigerators, Air Conditioners, and Heat Pumps
  143. 15.11 Entropy
  144. 15.12 The Third Law of Thermodynamics
  145. CONCEPT SUMMARY
  146. 16 Waves and Sound
  147. 16.1 The Nature of Waves
  148. 16.2 Periodic Waves
  149. 16.3 The Speed of a Wave on a String
  150. 16.4 The Mathematical Description of a Wave
  151. 16.5 The Nature of Sound
  152. 16.6 The Speed of Sound
  153. 16.7 Sound Intensity
  154. 16.8 Decibels
  155. 16.9 The Doppler Effect
  156. 16.10 Applications of Sound in Medicine
  157. 16.11 The Sensitivity of the Human Ear
  158. CONCEPT SUMMARY
  159. 17 The Principle of Linear Superposition and Interference Phenomena
  160. 17.1 The Principle of Linear Superposition
  161. 17.2 Constructive and Destructive Interference of Sound Waves
  162. 17.3 Diffraction
  163. 17.4 Beats
  164. 17.5 Transverse Standing Waves
  165. 17.6 Longitudinal Standing Waves
  166. 17.7 Complex Sound Waves

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