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Solution Manual for Physics An Algebra Based Approach Canadian 1st Edition McFarland Hirsch OMeara 0176531866 9780176531867
Solution Manual for Physics An Algebra Based Approach Canadian 1st Edition McFarland Hirsch OMeara 0176531866 9780176531867

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Class tested by over 10,000 students and written by an author team with over 75 years of teaching experience at both the high school and University level, Physics: An Algebra-Based Approach promotes problem-solving skills development while helping students to better understand physics. Based on the latest findings from Physics Education Research (PER), Physics: An Algebra-Based Approach focuses on student understanding through the use of engaging real-life applications, unique Fermi problems, conceptual examples, free body diagrams in mechanics and concept fixes based on research into common student misconceptions. Online support is available through text specific Enhanced WebAssign with the market-leading YouBook eBook.

Language: : English
ISBN-10 : 0176531866
ISBN-13 : 978-0176531867
ISBN-13 : 9780176531867

Author: Ernie McFarland, Alan Hirsch, Joanne OMeara

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Table of Content:

  1. Ch 1: Measurement and Types of Quantities
  2. 1.1 The Importance of Measurement
  3. 1.2 Metric Units, Prefixes, and Conversions
  4. 1.3 Dimensional Analysis
  5. 1.4 Significant Digits
  6. 1.5 Scalars and Vectors
  7. Chapter Review
  8. Ch 2: One-Dimensional Kinematics
  9. 2.1 Distance and Speed
  10. 2.2 Position, Displacement, and Velocity
  11. 2.3 Acceleration
  12. 2.4 Solving Constant-Acceleration Problems
  13. 2.5 Acceleration Due to Gravity
  14. Chapter Review
  15. Ch 3: Vectors and Trigonometry
  16. 3.1 General Properties of Vectors
  17. 3.2 Adding and Subtracting Vectors Using Scale Diagrams
  18. 3.3 Trigonometry
  19. 3.4 Adding and Subtracting Vectors Using Components
  20. Chapter Review
  21. Ch 4: Two-Dimensional Kinematics
  22. 4.1 Displacement and Velocity in Two Dimensions
  23. 4.2 Acceleration in Two Dimensions
  24. 4.3 Introduction to Projectile Motion
  25. 4.4 Solving Projectile Motion Problems
  26. 4.5 Uniform Circular Motion
  27. 4.6 Frames of Reference and Relative Velocity
  28. Chapter Review
  29. Ch 5: Newton’s Laws of Motion
  30. 5.1 Gravity, Normal Force, Friction, and Tension
  31. 5.2 Adding Forces
  32. 5.3 Newton’s Second Law of Motion
  33. 5.4 Newton’s First Law of Motion
  34. 5.5 Solving Problems Using Newton’s First and Second Laws
  35. 5.6 More Problem-Solving
  36. 5.7 Newton’s Third Law of Motion
  37. 5.8 The Fundamental Forces
  38. Chapter Review
  39. Ch 6: Applying Newton’s Laws
  40. 6.1 Static and Kinetic Friction
  41. 6.2 Forces in Circular Motion
  42. 6.3 Centrifugal “Force”
  43. Chapter Review
  44. Ch 7: Work, Energy, and Power
  45. 7.1 Work Done by a Constant Force
  46. 7.2 Kinetic Energy and the Work-Energy Theorem
  47. 7.3 Gravitational Potential Energy
  48. 7.4 Law of Conservation of Energy
  49. 7.5 Work Done by Friction
  50. 7.6 Other Types of Energy
  51. 7.7 Power
  52. 7.8 Efficiency of Energy Conversions
  53. Chapter Review
  54. Ch 8: Momentum and Collisions
  55. 8.1 Momentum
  56. 8.2 Conservation of Momentum in One Dimension
  57. 8.3 Elastic and Inelastic Collisions
  58. 8.4 Conservation of Momentum in Two Dimensions
  59. Chapter Review
  60. Ch 9: Gravitation
  61. 9.1 Law of Universal Gravitation
  62. 9.2 Gravity Due to Planets and Stars
  63. 9.3 Gravitational Field
  64. 9.4 Orbits, Kepler’s Laws, and Weightlessness
  65. 9.5 Gravitational Potential Energy in General
  66. Chapter Review
  67. Ch 10: Rotational Motion
  68. 10.1 Rotational Kinematics
  69. 10.2 Relations between Rotational and Linear Quantities
  70. 10.3 Rotational Kinetic Energy and Moment of Inertia
  71. 10.4 Torque and Newton’s Second Law for Rotation
  72. 10.5 Angular Momentum
  73. Chapter Review
  74. Ch 11: Statics, Stability, and Elasticity
  75. 11.1 Centre of Mass
  76. 11.2 Static Equilibrium
  77. 11.3 Stability
  78. 11.4 Stress and Strain; Elasticity
  79. 11.5 Shear and Bulk Stress and Strain; Architecture
  80. Chapter Review
  81. Ch 12: Fluid Statics and Dynamics
  82. 12.1 Properties of Fluids
  83. 12.2 Pascal’s Principle; Pressure in the Atmosphere
  84. 12.3 Surface Tension
  85. 12.4 Buoyancy and Archimedes’ Principle
  86. 12.5 Fluid Dynamics
  87. 12.6 Viscosity
  88. Chapter Review
  89. Ch 13: Oscillations and Waves
  90. 13.1 Oscillations and Simple Harmonic Motion
  91. 13.2 The Simple Pendulum
  92. 13.3 The Sinusoidal Nature of Simple Harmonic Motion
  93. 13.4 Energy in Simple Harmonic Motion; Damping; Resonance
  94. 13.5 Energy Transfer with Waves
  95. 13.6 Periodic Waves
  96. 13.7 Interference of Waves
  97. 13.8 Diffraction of Waves
  98. Chapter Review
  99. Ch 14: Sound and Music
  100. 14.1 The Nature of Sound
  101. 14.2 Hearing and the Intensity of Sound
  102. 14.3 Infrasonics, Ultrasonics, and Echolocation
  103. 14.4 The Doppler Effect and Subsonic and Supersonic Speeds in Sound
  104. 14.5 Diffraction, Interference, and Resonance in Sound
  105. 14.6 Tonal Quality
  106. 14.7 Musical Scales
  107. 14.8 Musical Instruments and Resonance in Stringed and Wind Instruments
  108. 14.9 Acoustics
  109. Chapter Review
  110. Ch 15: Reflection, Refraction, and Dispersion of Light
  111. 15.1 Sources and Propagation of Light
  112. 15.2 Mirrors and Their Images
  113. 15.3 Refraction and Dispersion of Light
  114. 15.4 Total Internal Reflection
  115. 15.5 Lenses and Their Images
  116. Chapter Review
  117. Ch 16: Wave Optics
  118. 16.1 Diffraction of Light and Huygens’ Principle
  119. 16.2 Double-Slit Interference of Light
  120. 16.3 Single-Slit Diffraction and Resolution
  121. 16.4 Diffraction Gratings and Spectroscopy
  122. 16.5 Thin-Film Interference
  123. 16.6 The Electromagnetic Spectrum
  124. 16.7 Polarization of Light
  125. Chapter Review
  126. Ch 17: Optical Instruments
  127. 17.1 The Human Eye and Vision
  128. 17.2 Vision Defects and Their Corrections
  129. 17.3 The Simple Magnifier
  130. 17.4 The Compound Light Microscope
  131. 17.5 Telescopes
  132. 17.6 Cameras and Photography
  133. 17.7 Lasers and Holography
  134. Chapter Review
  135. Ch 18: Heat and Thermodynamics
  136. 18.1 Temperature and Internal Energy
  137. 18.2 Heat, Specific Heat, and Latent Heat
  138. 18.3 Thermal Expansion
  139. 18.4 Energy Transfer
  140. 18.5 First and Second Laws of Thermodynamics
  141. 18.6 Refrigerators, Air Conditioners, and Heat Pumps
  142. Chapter Review
  143. Ch 19: Electric Charge and Electric Field
  144. 19.1 Electric Charge and Atoms
  145. 19.2 Transfer of Electric Charge
  146. 19.3 Conductors and Insulators
  147. 19.4 Coulomb’s Law
  148. 19.5 Electric Field
  149. 19.6 Electric Field Lines
  150. Chapter Review
  151. Ch 20: Electric Potential Energy, Electric Potential, and Current
  152. 20.1 Electric Potential Energy in a Uniform Electric Field
  153. 20.2 Electric Potential Energy of Point Charges
  154. 20.3 Electric Potential
  155. 20.4 Relating Electric Potential and Electric Field
  156. 20.5 Electric Current
  157. Chapter Review
  158. Ch 21: Electrical Resistance and Circuits
  159. 21.1 Electrical Resistance and Ohm’s Law
  160. 21.2 Batteries and Electrical Circuits
  161. 21.3 Resistors in Series and Parallel
  162. 21.4 Electrical Energy and Power
  163. 21.5 AC Circuits
  164. Chapter Review
  165. Ch 22: Magnetism
  166. 22.1 Magnetic Fields
  167. 22.2 Magnetic Fields Due to Currents
  168. 22.3 Magnetic Force on a Charged Particle
  169. 22.4 Magnetic Force on a Current-Carrying Conductor
  170. Chapter Review
  171. Ch 23: Electromagnetic Induction
  172. 23.1 Producing an Electric Current with a Magnetic Field
  173. 23.2 Lenz’s Law
  174. 23.3 Electric Generators
  175. 23.4 Transformers
  176. 23.5 Magnetic Flux
  177. Chapter Review
  178. Ch 24: Nuclear Physics: Theory and Medical Applications
  179. 24.1 Structure of Nuclei
  180. 24.2 Radioactivity and Decay
  181. 24.3 Characteristics of Radioactive Decay
  182. 24.4 Nuclear Fission and Fusion
  183. 24.5 Interactions between Radiation and Matter
  184. 24.6 Medical Applications
  185. Chapter Review
  186. Glossary

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