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Solution Manual for Physics for Scientists and Engineers Foundations and Connections, Volume 1, 1st Edition

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Solution Manual for Physics for Scientists and Engineers Foundations and Connections, Volume 1, 1st Edition

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Product Details:

  • ISBN-10 ‏ : ‎ 0534466753
  • ISBN-13 ‏ : ‎ 978-0534466756
  • Author:   Debora M. Katz

Master physics with Debora Katz’s new, ground-breaking calculus-based physics program, PHYSICS FOR SCIENTISTS AND ENGINEERS: FOUNDATIONS AND CONNECTIONS. Dr. Katz’s one-of-a-kind case study approach enables you to connect math and physics concepts in a modern, interactive way. By leveraging physics education research (PER) best practices and her extensive classroom experience, Debora Katz addresses the areas where students like you struggle the most: linking physics to the real world, overcoming common preconceptions, and connecting the concept being taught with the mathematical steps to follow. How Dr. Katz deals with these challenges with case studies, student dialogues, and detailed two-column examples distinguishes this text from any other and will assist you in going beyond the quantitative to master your physics course.

 

Table of Content:

  1. Part I: Classical Mechanics
  2. Ch 1: Getting Started
  3. 1-1 Physics
  4. 1-2 How are Laws of Physics Found?
  5. 1-3 A Guide to Learning Physics
  6. 1-4 Solving Problems in Physics
  7. 1-5 Systems of Units
  8. 1-6 Dimensional Analysis
  9. 1-7 Error and Significant Figures
  10. 1-8 Order-of-Magnitude Estimates
  11. Ch 2: One-Dimensional Motion
  12. 2-1 What is One-Dimensional Translational Kinematics?
  13. 2-2 Motion Diagrams
  14. 2-3 Coordinate Systems and Position
  15. 2-4 Position-versus-Time Graphs
  16. 2-5 Displacement and Distance Traveled
  17. 2-6 Average Velocity and Speed
  18. 2-7 Instantaneous Velocity and Speed
  19. 2-8 Average and Instantaneous Acceleration
  20. 2-9 Special Case: Constant Acceleration
  21. 2-10 A Special Case of Constant Acceleration: Free Fall
  22. Ch 3: Vectors
  23. 3-1 Geometric Treatment of Vectors
  24. 3-2 Cartesian Coordinate Systems
  25. 3-3 Components of a Vector
  26. 3-4 Combining Vectors by Components
  27. Ch 4: Two- and Three-Dimensional Motion
  28. 4-1 What is Multidimensional Motion?
  29. 4-2 Motion Diagrams for Multidimensional Motion
  30. 4-3 Position and Displacement
  31. 4-4 Velocity and Acceleration
  32. 4-5 Special Case of Projectile Motion
  33. 4-6 Special Case of Uniform Circular Motion
  34. 4-7 Relative Motion in One Dimension
  35. 4-8 Relative Motion in Two Dimensions
  36. Ch 5: Newton’s Laws of Motion
  37. 5-1 Our Experience with Dynamics
  38. 5-2 Newton’s First Law
  39. 5-3 Force
  40. 5-4 Inertial Mass
  41. 5-5 Inertial Reference Frames
  42. 5-6 Newton’s Second Law
  43. 5-7 Some Specific Forces
  44. 5-8 Free-Body Diagrams
  45. 5-9 Newton’s Third Law
  46. 5-10 Fundamental Forces
  47. Ch 6: Applications of Newton’s Laws of Motion
  48. 6-1 Newton’s Laws in a Messy World
  49. 6-2 Friction and the Normal Force Revisited
  50. 6-3 A Model for Static Friction
  51. 6-4 Kinetic and Rolling Friction
  52. 6-5 Drag and Terminal Speed
  53. 6-6 Centripetal Force
  54. Ch 7: Gravity
  55. 7-1 A Knowable Universe
  56. 7-2 Kepler’s Laws of Planetary Motion
  57. 7-3 Newton’s Law of Universal Gravity
  58. 7-4 The Gravitational Field
  59. 7-5 Variations in the Earth’s Gravitational Field
  60. Ch 8: Conservation of Energy
  61. 8-1 Another Approach to Newtonian Mechanics
  62. 8-2 Energy
  63. 8-3 Gravitational Potential Energy near the Earth
  64. 8-4 Universal Gravitational Potential Energy
  65. 8-5 Elastic Potential Energy
  66. 8-6 Conservation of Mechanical Energy
  67. 8-7 Applying the Conservation of Mechanical Energy
  68. 8-8 Energy Graphs
  69. 8-9 Special Case: Orbital Energies
  70. Ch 9: Energy in Nonisolated Systems
  71. 9-1 Energy Transfer to and from the Environment
  72. 9-2 Work Done by a Constant Force
  73. 9-3 Dot Product
  74. 9-4 Work Done by a Nonconstant Force
  75. 9-5 Conservation and Nonconservative Forces
  76. 9-6 Particles, Objects, and Systems
  77. 9-7 Thermal Energy
  78. 9-8 Work-Energy Theorem
  79. 9-9 Power
  80. Ch 10: Systems of Particles and Conservation of Momentum
  81. 10-1 A Second Conservation Principle
  82. 10-2 Momentum of a Particle
  83. 10-3 Center of Mass Revisited
  84. 10-4 Systems of Particles
  85. 10-5 Conservation of Momentum
  86. 10-6 Case Study: Rockets
  87. 10-7 Rocket Thrust: An Open System (Optional)
  88. Ch 11: Collisions
  89. 11-1 What is a Collision?
  90. 11-2 Impulse
  91. 11-3 Conservation during a Collision
  92. 11-4 Special Case: One-Dimensional Inelastic Collisions
  93. 11-5 One-Dimensional Elastic Collisions
  94. 11-6 Two-Dimensional Collisions
  95. Ch 12: Rotation I: Kinematics and Dynamics
  96. 12-1 Rotation versus Translation
  97. 12-2 Rotational Kinematics
  98. 12-3 Special Case of Constant Angular Acceleration
  99. 12-4 The Connection between Rotation and Circular Motion
  100. 12-5 Torque
  101. 12-6 Cross Product
  102. 12-7 Rotational Dynamics
  103. Ch 13: Rotation II: A Conservation Approach
  104. 13-1 Conservation Approach
  105. 13-2 Rotational Inertia
  106. 13-3 Rotational Kinetic Energy
  107. 13-4 Special Case of Rolling Motion
  108. 13-5 Work and Power
  109. 13-6 Angular Momentum
  110. 13-7 Conservation of Angular Momentum
  111. Part II: Mechanics of Complex Systems
  112. Ch 14: Static Equilibrium, Elasticity, and Fracture
  113. 14-1 What is Static Equilibrium?
  114. 14-2 Conditions for Equilibrium
  115. 14-3 Examples of Static Equilibrium
  116. 14-4 Elasticity and Fracture
  117. Ch 15: Fluids
  118. 15-1 What is a Fluid?
  119. 15-2 Static Fluid on the Earth
  120. 15-3 Pressure
  121. 15-4 Archimedes’s Principle
  122. 15-5 Measuring Pressure
  123. 15-6 Ideal Fluid Flow
  124. 15-7 The Continuity Equation
  125. 15-8 Bernoulli’s Equation
  126. Ch 16: Oscillations
  127. 16-1 Picturing Harmonic Motion
  128. 16-2 Kinematic Equations of Simple Harmonic Motion
  129. 16-3 Connection with Circular Motion
  130. 16-4 Dynamics of Simple Harmonic Motion
  131. 16-5 Special Case: Object-Spring Oscillator
  132. 16-6 Special Case: Simple Pendulum
  133. 16-7 Special Case: Physical Pendulum
  134. 16-8 Special Case: Torsion Pendulum
  135. 16-9 Energy in Simple Harmonic Motion
  136. 16-10 Damped Harmonic Motion
  137. 16-11 Driven Oscillators
  138. Ch 17: Traveling Waves
  139. 17-1 Introducing Mechanical Waves
  140. 17-2 Pulses
  141. 17-3 Harmonic Waves
  142. 17-4 Special Case: Transverse Wave on a Rope
  143. 17-5 Sound: Special Case of a Traveling Longitudinal Wave
  144. 17-6 Energy Transport in Waves
  145. 17-7 Two- and Three-Dimensional Waves
  146. 17-8 Refraction and Diffraction
  147. 17-9 The Doppler Shift
  148. 17-10 The Wave Equation
  149. Ch 18: Superposition and Standing Waves
  150. 18-1 Superposition
  151. 18-2 Reflection
  152. 18-3 Interference
  153. 18-4 Standing Waves
  154. 18-5 Guitar: Resonance on a String Fixed at Both Ends
  155. 18-6 Flute: Resonance in a Tube Open at Both Ends
  156. 18-7 Clarinet: Resonance in a Tube Closed at One End and Open at the Other End
  157. 18-8 Beats
  158. 18-9 Fourier’s Theorem
  159. Ch 19: Temperature, Thermal Expansion, and Gas Laws
  160. 19-1 Thermodynamics and Temperature
  161. 19-2 Zeroth Law of Thermodynamics
  162. 19-3 Thermal Expansion
  163. 19-4 Thermal Stress
  164. 19-5 Gas Laws
  165. 19-6 Ideal Gas Law
  166. 19-7 Temperature Standards
  167. Ch 20: Kinetic Theory of Gases
  168. 20-1 What is the Kinetic Theory?
  169. 20-2 Average and Root-Mean-Square Quantities
  170. 20-3 The Kinetic Theory Applied to Gas Temperature and Pressure
  171. 20-4 Maxwell-Boltzmann Distribution Function
  172. 20-5 Mean Free Path
  173. 20-6 Real Gases: The Van der Waals Equation of State
  174. 20-7 Phase Changes
  175. 20-8 Evaporation
  176. Ch 21: Heat and the First Law of Thermodynamics
  177. 21-1 What is Heat?
  178. 21-2 How Does Heat Fit into the Conservation of Energy?
  179. 21-3 The First Law of Thermodynamics
  180. 21-4 Heat Capacity and Specific Heat
  181. 21-5 Latent Heat
  182. 21-6 Work in Thermodynamic Processes
  183. 21-7 Specific Thermodynamic Processes
  184. 21-8 Equipartition of Energy
  185. 21-9 Adiabatic Processes Revisited
  186. 21-10 Conduction, Convection, and Radiation
  187. Ch 22: Entropy and the Second Law of Thermodynamics
  188. 22-1 Second Law of Thermodynamics, Clausius Statement
  189. 22-2 Heat Engines
  190. 22-3 Second Law of Thermodynamics, Kelvin-Planck Statement
  191. 22-4 The Most Efficient Engine
  192. 22-5 Case Study: Refrigerators
  193. 22-6 Entropy
  194. 22-7 Second Law of Thermodynamics, General Statements
  195. 22-8 Order and Disorder
  196. 22-9 Entropy, Probability, and the Second Law
  197. Appendix A: Mathematics
  198. Appendix B: Reference Tables
  199. Periodic Table of the Elements
  200. Answers to Concept Exercises and Odd-Numbered Problems
  201. Index

 

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