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Introduction to Physical Science 14th Edition Shipman Solutions Manual

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Product Details:

  • ISBN-10 ‏ : ‎ 1305079132
  • ISBN-13 ‏ : ‎ 978-1305079137
  • Author;  Jerry Wilson (Author), James Shipman (Author), Charles Higgins (Author), Omar Torres (Author)

Consistent with previous editions of AN INTRODUCTION TO PHYSICAL SCIENCE, the goal of the new Fourteenth Edition is to stimulate students’ interest in and gain knowledge of the physical sciences. Presenting content in such a way that students develop the critical reasoning and problem-solving skills that are needed in an ever-changing technological world, the authors emphasize fundamental concepts as they progress through the five divisions of physical sciences: physics, chemistry, astronomy, meteorology, and geology. Ideal for a non-science major’s course, topics are treated both descriptively and quantitatively, providing instructors the flexibility to emphasize whichever approach works best for their students.

 

Table of Content:

  1. Ch 1: Measurement
  2. 1.1: The Physical Sciences
  3. 1.2: Scientific Investigation
  4. 1.3: The Senses
  5. 1.4: Standard Units and Systems of Units
  6. 1.5: More on the Metric System
  7. 1.6: Derived Units and Conversion Factors
  8. 1.7: Significant Figures
  9. Ch 2: Motion
  10. 2.1: Defining Motion
  11. 2.2: Speed and Velocity
  12. 2.3: Acceleration
  13. 2.4: Acceleration in Uniform Circular Motion
  14. 2.5: Projectile Motion
  15. Ch 3: Force and Motion
  16. 3.1: Force and Net Force
  17. 3.2: Newton’s First Law of Motion
  18. 3.3: Newton’s Second Law of Motion
  19. 3.4: Newton’s Third Law of Motion
  20. 3.5: Newton’s Law of Gravitation
  21. 3.6: Archimedes’ Principle and Buoyancy
  22. 3.7: Momentum
  23. Ch 4: Work and Energy
  24. 4.1: Work
  25. 4.2: Kinetic Energy and Potential Energy
  26. 4.3: Conservation of Energy
  27. 4.4: Power
  28. 4.5: Forms of Energy and Consumption
  29. 4.6: Alternative and Renewable Energy Sources
  30. Ch 5: Temperature and Heat
  31. 5.1: Temperature
  32. 5.2: Heat
  33. 5.3: Specific Heat and Latent Heat
  34. 5.4: Heat Transfer
  35. 5.5: Phases of Matter
  36. 5.6: The Kinetic Theory of Gases
  37. 5.7: Thermodynamics
  38. Ch 6: Waves and Sound
  39. 6.1: Waves and Energy Propagation
  40. 6.2: Wave Properties
  41. 6.3: Light Waves
  42. 6.4: Sound Waves
  43. 6.5: The Doppler Effect
  44. 6.6: Standing Waves and Resonance
  45. Ch 7: Optics and Wave Effects
  46. 7.1: Reflection
  47. 7.2: Refraction and Dispersion
  48. 7.3: Spherical Mirrors
  49. 7.4: Lenses
  50. 7.5: Polarization
  51. 7.6: Diffraction and Interference
  52. Ch 8: Electricity and Magnetism
  53. 8.1: Electric Charge, Electric Force, and Electric Field
  54. 8.2: Current, Voltage, and Electrical Power
  55. 8.3: Simple Electric Circuits and Electrical Safety
  56. 8.4: Magnetism
  57. 8.5: Electromagnetism
  58. Ch 9: Atomic Physics
  59. 9.1: Early Concepts of the Atom
  60. 9.2: The Dual Nature of Light
  61. 9.3: Bohr Theory of the Hydrogen Atom
  62. 9.4: Microwave Ovens, X-Rays, and Lasers
  63. 9.5: Heisenberg’s Uncertainty Principle
  64. 9.6: Matter Waves
  65. 9.7: The Electron Cloud Model of the Atom
  66. Ch 10: Nuclear Physics
  67. 10.1: Symbols of the Elements
  68. 10.2: The Atomic Nucleus
  69. 10.3: Radioactivity and Half-Life
  70. 10.4: Nuclear Reactions
  71. 10.5: Nuclear Fission
  72. 10.6: Nuclear Fusion
  73. 10.7: Effects of Radiation
  74. 10.8: Elementary Particles
  75. Ch 11: The Chemical Elements
  76. 11.1: Classification of Matter
  77. 11.2: Discovery of the Elements
  78. 11.3: Occurrence of the Elements
  79. 11.4: The Periodic Table
  80. 11.5: Naming Compounds
  81. 11.6: Groups of Elements
  82. Ch 12: Chemical Bonding
  83. 12.1: Law of Conservation of Mass
  84. 12.2: Law of Definite Proportions
  85. 12.3: Dalton’s Atomic Theory
  86. 12.4: Ionic Bonding
  87. 12.5: Covalent Bonding
  88. 12.6: Hydrogen Bonding
  89. Ch 13: Chemical Reactions
  90. 13.1: Balancing Chemical Equations
  91. 13.2: Energy and Rate of Reaction
  92. 13.3: Acids and Bases
  93. 13.4: Single-Replacement Reactions
  94. 13.5: Avogadro’s Number
  95. Ch 14: Organic Chemistry
  96. 14.1: Bonding in Organic Compounds
  97. 14.2: Aromatic Hydrocarbons
  98. 14.3: Aliphatic Hydrocarbons
  99. 14.4: Derivatives of Hydrocarbons
  100. 14.5: Synthetic Polymers
  101. 14.6: Biochemistry
  102. Ch 15: Place and Time
  103. 15.1: Cartesian Coordinates
  104. 15.2: Latitude and Longitude
  105. 15.3: Time
  106. 15.4: Determining Latitude and Longitude
  107. 15.5: The Seasons and the Calendar
  108. 15.6: Precession of the Earth’s Axis
  109. Ch 16: The Solar System
  110. 16.1: The Solar System and Planetary Motion
  111. 16.2: Major Planet Classifications and Orbits
  112. 16.3: The Planet Earth
  113. 16.4: The Terrestrial Planets
  114. 16.5: The Jovian Planets
  115. 16.6: The Dwarf Planets
  116. 16.7: The Origin of the Solar System
  117. 16.8: Other Planetary Systems
  118. Ch 17: Moons and Small Solar System Bodies
  119. 17.1: Structure, Origin, and Features of the Earth’s Moon
  120. 17.2: Lunar Motion Effects: Phases, Eclipses, and Tides
  121. 17.3: Moons of the Terrestrial Planets
  122. 17.4: Moons of the Jovian Planets
  123. 17.5: Moons of the Dwarf Planets
  124. 17.6: Small Solar System Bodies: Asteroids, Meteoroids, Comets, and Interplanetary Dust
  125. Ch 18: The Universe
  126. 18.1: The Celestial Sphere
  127. 18.2: The Sun: Our Closest Star
  128. 18.3: Classifying Stars
  129. 18.4: The Life Cycle of Low-Mass Stars
  130. 18.5: The Life Cycle of High-Mass Stars
  131. 18.6: Galaxies
  132. 18.7: Cosmology
  133. Ch 19: The Atmosphere
  134. 19.1: Atmospheric Composition and Structure
  135. 19.2: Atmospheric Energy Content
  136. 19.3: Atmospheric Measurements and Observations
  137. 19.4: Air Motion
  138. 19.5: Clouds
  139. Ch 20: Atmospheric Effects
  140. 20.1: Condensation and Precipitation
  141. 20.2: Air Masses
  142. 20.3: Storms
  143. 20.4: Atmospheric Pollution
  144. 20.5: Climate and Pollution
  145. Ch 21: Structural Geology and Plate Tectonics
  146. 21.1: The Earth’s Interior Structure
  147. 21.2: Continental Drift and Seafloor Spreading
  148. 21.3: Plate Tectonics
  149. 21.4: Plate Motion and Volcanoes
  150. 21.5: Earthquakes
  151. 21.6: Crustal Deformation and Mountain Building
  152. Ch 22: Minerals, Rocks, and Volcanoes
  153. 22.1: Minerals
  154. 22.2: Rocks
  155. 22.3: Igneous Rocks
  156. 22.4: Igneous Activity and Volcanoes
  157. 22.5: Sedimentary Rocks
  158. 22.6: Metamorphic Rocks
  159. Ch 23: Surface Processes
  160. 23.1: Weathering
  161. 23.2: Erosion
  162. 23.3: Groundwater
  163. 23.4: Shoreline and Seafloor Topography
  164. Ch 24: Geologic Time
  165. 24.1: Fossils
  166. 24.2: Relative Geologic Time
  167. 24.3: Radiometric Dating
  168. 24.4: The Age of the Earth
  169. 24.5: The Geologic Time Scale
  170. Appendixes
  171. Appendix A: The Seven Base Units of the International System of Units (SI)
  172. Appendix B: Solving Mathematical Problems in Science
  173. Appendix C: Equation Rearrangement
  174. Appendix E: Positive and Negative Numbers
  175. Appendix F: Powers-of-10 Notation
  176. Appendix G: Significant Figures
  177. Appendix H: Psychrometric Tables (Pressure: 30 in. of Hg)
  178. Appendix I: Seasonal Star Charts
  179. Answers to Confidence Exercises
  180. Answers to Selected Questions
  181. Glossary
  182. Index

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