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Solution Manual for Inquiry into Physics 8th Edition

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Solution Manual for Inquiry into Physics 8th Edition

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  • ISBN-10 ‏ : ‎ 1305959426
  • ISBN-13 ‏ : ‎ 978-1305959422
  • Author:  Vern Ostdiek, Don Bord

What do iPods, GPS devices, airport metal detectors, LCD displays, and PET scans have to do with physics? The Eighth Edition of INQUIRY INTO PHYSICS answers these questions and many others, helping you understand fundamental concepts using a unique inquiry-based approach. The text integrates modern applications of physics such as plasma TVs and radar “guns” to demonstrate the relevance of physics in daily life.

 

Table of Content:

  1. P.1 Introduction
  2. P.2 Why Learn Physics?
  3. P.3 What Is Physics?
  4. P.4 How Is Physics Done?
  5. P.5 How Does One Learn Physics?
  6. P.6 Physical Quantities and Measurement
  7. Commerical Applications: The Metric System: “For All Time, for All People.”
  8. Chapter 1: The Study of Motion
  9. Chapter Introduction: Drag Racing
  10. 1.1 Fundamental Physical Quantities
  11. 1.1a Distance
  12. 1.1b Time
  13. 1.1c Mass
  14. Commerical Applications: Time Out!
  15. 1.2 Speed and Velocity
  16. 1.2a Speed
  17. 1.2b Velocity
  18. 1.2c Vector Addition
  19. 1.3 Acceleration
  20. 1.3a Centripetal Acceleration
  21. 1.4 Simple Types of Motion
  22. 1.4a Constant Velocity
  23. 1.4b Constant Acceleration
  24. 1.4c More on Kinematics Graphs
  25. Profiles in Physics: Aristotle vs. Galileo
  26. Summary
  27. Important Equations
  28. Mapping it Out!
  29. Questions
  30. Problems
  31. Challenges
  32. Chapter 2: Newton’s Laws
  33. Chapter Introduction: New Horizons—Old Physics
  34. 2.1 Force
  35. 2.1a Weight
  36. 2.1b Friction
  37. Engineering Applications: Friction: A Sticky Subject
  38. 2.2 Newton’s First Law of Motion
  39. 2.2a Centripetal Force
  40. 2.3 Mass
  41. 2.4 Newton’s Second Law of Motion
  42. 2.4a Force and Acceleration
  43. 2.4b The International System of Units (SI)
  44. 2.5 Examples: Different Forces, Different Motions
  45. 2.5a Projectile Motion Revisited
  46. 2.5b Simple Harmonic Motion
  47. 2.5c Falling Body with Air Resistance
  48. Mathematical Applications: Chaotic Dynamics
  49. 2.6 Newton’s Third Law of Motion
  50. 2.7 The Law of Universal Gravitation
  51. 2.7a Orbits
  52. 2.7b Gravitational Field
  53. 2.8 Tides
  54. Profiles in Physics: Isaac Newton
  55. Summary
  56. Important Equations
  57. Mapping it Out!
  58. Questions
  59. Problems
  60. Challenges
  61. Chapter 3: Energy and Conservation Laws
  62. Chapter Introduction: Forensic Physics
  63. 3.1 Conservation Laws
  64. 3.2 Linear Momentum
  65. 3.2a Newton’s Second Law, Revisited
  66. 3.2b Conservation of Linear Momentum: Collisions
  67. 3.3 Work: The Key to Energy
  68. 3.3a Work
  69. 3.3b Different Forces, Different Work
  70. 3.4 Energy
  71. 3.4a Mechanical Energy: Kinetic and Potential
  72. 3.4b Other Forms of Potential Energy
  73. 3.5 The Conservation of Energy
  74. 3.5a Applications of Energy Conservation
  75. 3.6 Collisions: An Energy Perspective
  76. 3.6a Types of Collisions
  77. 3.6b Noncontact Collisions
  78. 3.7 Power
  79. Environmental Applications: Exponential Growth and the Energy “Crisis”
  80. 3.8 Rotation and Angular Momentum
  81. Astronomical Application: Starquakes: A Glitch in Time
  82. Profiles in Physics: Archimedes of Syracuse: Engineering Physicist
  83. Summary
  84. Important Equations
  85. Mapping it Out!
  86. Questions
  87. Problems
  88. Challenges
  89. Chapter 4: Physics of Matter
  90. Chapter Introduction: Airships
  91. 4.1 Matter: Phases, Forms, and Forces
  92. 4.1a Phases of Matter
  93. 4.1b Forms of Matter
  94. 4.1c Behavior of Atoms and Molecules
  95. Lexicological Application: What’s in a Name?
  96. 4.2 Pressure
  97. 4.2a Defining Pressure
  98. 4.2b Gauge Pressure
  99. 4.3 Density
  100. 4.3a Mass Density
  101. 4.3b Weight Density and Specific Gravity
  102. 4.4 Fluid Pressure and Gravity
  103. 4.4a The Law of Fluid Pressure
  104. 4.4b Fluid Pressure in the Atmosphere
  105. 4.5 Archimedes’ Principle
  106. 4.5a Buoyancy
  107. 4.5b Archimedes’ Principle
  108. 4.5c Applications of Archimedes’ Principle
  109. Low-Temperature Application: Superfluids: Friction-free Flow
  110. 4.6 Pascal’s Principle
  111. 4.7 Bernoulli’s Principle
  112. Profiles in Physics: The Rise of the Modern Atomic Theory and the Development of Fluid Physics
  113. Summary
  114. Important Equations
  115. Mapping It Out!
  116. Questions
  117. Problems
  118. Challenges
  119. Chapter 5: Temperature and Heat
  120. Chapter Introduction: Hurricanes
  121. 5.1 Temperature
  122. 5.1a Temperature Scales
  123. 5.1b Temperature and Energy
  124. Atmospheric Science Applications: To Breathe or Not to Breathe, That is the Question
  125. 5.2 Thermal Expansion
  126. 5.2a Solids: Linear Expansion
  127. 5.2b Liquids
  128. 5.2c Gases: The Ideal Gas Law
  129. 5.3 The First Law of Thermodynamics
  130. 5.3a Heat and Internal Energy
  131. 5.3b The First Law of Thermodynamics
  132. 5.4 Heat Transfer
  133. 5.4a Conduction
  134. 5.4b Convection
  135. 5.4c Radiation
  136. 5.4d Combinations
  137. Astronomical Application: Energy Flow in Stars
  138. 5.5 Specific Heat Capacity
  139. 5.6 Phase Transitions
  140. 5.6a Latent Heats
  141. 5.6b Humidity
  142. 5.7 Heat Engines and the Second Law of Thermodynamics
  143. 5.7a Heat Engines
  144. 5.7b Heat Movers
  145. 5.7c Usable Energy
  146. Profiles in Physics: Thermometry and Calorimetry
  147. Summary
  148. Important Equations
  149. Mapping it Out!
  150. Questions
  151. Problems
  152. Challenges
  153. Chapter 6: Waves and Sound
  154. Chapter Introduction: Sound Medicine
  155. 6.1 Waves—Types and Properties
  156. 6.1a Wave Types and Speed
  157. 6.1b Amplitude, Wavelength, and Frequency
  158. 6.2 Aspects of Wave Propagation
  159. 6.2a Wave Fronts and Rays
  160. 6.2b Reflection
  161. 6.2c Doppler Effect
  162. 6.2d Bow Waves and Shock Waves
  163. 6.2e Diffraction
  164. 6.2f Interference
  165. Astronomical Application: The Hubble Relation—Expanding Our Horizons
  166. 6.3 Sound
  167. 6.3a Pressure Waves
  168. 6.3b Sound Applications
  169. Meteorlogical Applications: Putting Sound to Work
  170. 6.4 Production of Sound
  171. 6.5 Propagation of Sound
  172. 6.5a Reverberant Sound
  173. 6.5b Reverberation Time
  174. 6.6 Perception of Sound
  175. 6.6a Pitch
  176. 6.6b Loudness
  177. 6.6c Tone Quality
  178. Profiles in Physics: Acoustics Pioneers
  179. Summary
  180. Important Equations
  181. Mapping it Out!
  182. Questions
  183. Problems
  184. Challenges
  185. Chapter 7: Electricity
  186. Chapter Introduction: iProducts—iPods, iPads, and iPhones
  187. 7.1 Electric Charge
  188. 7.2 Electric Force and Coulomb’s Law
  189. 7.2a Coulomb’s Law
  190. 7.2b The Electric Field
  191. Meterological Applications: Electrifying Sights and Sounds—A Thunderstorm Primer
  192. 7.3 Electric Currents—Superconductivity
  193. 7.3a Electric Current
  194. 7.3b Resistance
  195. 7.3c Superconductivity
  196. 7.4 Electric Circuits and Ohm’s Law
  197. 7.4a Voltage and Ohm’s Law
  198. 7.4b Series and Parallel Circuits
  199. Medical Applications: Electricity and the Human Body
  200. 7.5 Power and Energy in Electric Currents
  201. 7.6 AC and DC
  202. Profiles in Physics: Founders of Electrical Science
  203. Summary
  204. Important Equations
  205. Mapping it Out!
  206. Questions
  207. Problems
  208. Challenges
  209. Chapter 8: Electromagnetism and EM Waves
  210. Chapter Introduction: Metal Detectors
  211. 8.1 Magnetism
  212. 8.1a Magnetic Materials and Fields
  213. 8.1b Earth’s Magnetic Field
  214. 8.2 Interactions between Electricity and Magnetism
  215. 8.2a Electromagnets
  216. 8.2b Electric Motors
  217. 8.2c Electromagnetic Induction and Electric Generators
  218. 8.3 Principles of Electromagnetism
  219. 8.4 Applications to Sound Reproduction
  220. 8.4a Microphones and Magnetic Tape Devices
  221. 8.4b Digital Sound
  222. 8.5 Electromagnetic Waves
  223. 8.5a Radio Waves
  224. 8.5b Microwaves
  225. 8.5c Infrared
  226. 8.5d Visible Light
  227. 8.5e Ultraviolet Radiation
  228. 8.5f X-Rays
  229. 8.5g Gamma Rays
  230. Behavioral Sciences Application: N Rays – “C’est une erreur”
  231. 8.6 Blackbody Radiation
  232. 8.6a BBR Laws
  233. 8.6b Temperature Measurement
  234. 8.6c Detection of Warm Objects
  235. Astronomical Application: Cosmic Background Radiation (CBR)—A Relic of the Big Bang
  236. 8.7 EM Waves and Earth’s Atmosphere
  237. 8.7a Ozone Layer
  238. 8.7b Greenhouse Effect
  239. 8.7c The Ionosphere
  240. 8.7d Astronomy
  241. Profiles in Physics: 19th Century Leaders in Electromagnetism
  242. Summary
  243. Important Equations
  244. Mapping It Out!
  245. Questions
  246. Problems
  247. Challenges
  248. Chapter 9: Optics
  249. Chapter Introduction: Doggone It!
  250. 9.1 Light Waves
  251. 9.1a Reflection
  252. 9.1b Diffraction
  253. 9.1c Interference
  254. 9.1d Polarization
  255. 9.2 Mirrors: Plane and Not So Simple
  256. 9.2a “One-Way Mirror”
  257. 9.2b Curved Mirrors
  258. 9.2c Astronomical Telescope Mirrors
  259. 9.3 Refraction
  260. 9.3a The Law of Refraction
  261. 9.3b Total Internal Reflection
  262. 9.4 Lenses and Images
  263. 9.4a Image Formation
  264. 9.4b Magnification
  265. 9.4c Aberrations
  266. Optical Engineering Applications: Fresnel, Pharos, and Physics
  267. 9.5 The Human Eye
  268. 9.5a Defects of the Eye
  269. 9.5b Eye Surgery
  270. 9.6 Dispersion and Color
  271. 9.7 Atmospheric Optics: Rainbows, Halos, and Blue Skies
  272. 9.7a Rainbows
  273. 9.7b Halos
  274. 9.7c Blue Skies
  275. Profiles in Physics: “On the Shoulders of Giants”
  276. Summary
  277. Important Equations
  278. Mapping it Out!
  279. Questions
  280. Problems
  281. Challenges
  282. Chapter 10: Atomic Physics
  283. Chapter Introduction: Something Old, Something New
  284. 10.1 The Quantum Hypothesis
  285. 10.1a Blackbody Radiation
  286. 10.1b Quantized Oscillators
  287. 10.2 The Photoelectric Effect and Photons
  288. 10.2a Photoelectric Physics
  289. 10.2b Applications of the Photoelectric Effect
  290. 10.3 Atomic Spectra
  291. Spectroscopic Applications: Cosmic Chemistry, “…To Dream of Such a Thing”
  292. 10.4 The Bohr Model of the Atom
  293. 10.4a Atomic Spectra Explained
  294. 10.4b Model Assumptions
  295. 10.5 Quantum Mechanics
  296. 10.5a de Broglie’s Hypothesis
  297. 10.5b The Bohr Atom Explained
  298. 10.6 Atomic Structure
  299. 10.6a Atomic Energy Levels
  300. 10.6b Some Applications
  301. 10.6c The Pauli Exclusion Principle
  302. 10.7 X-Ray Spectra
  303. 10.8 Lasers
  304. Optical Applications: Holograms—3-D Images, No Glasses Required
  305. Profiles in Physics: The Solvay Conferences
  306. Summary
  307. Important Equations
  308. Mapping it Out!
  309. Questions
  310. Problems
  311. Challenges
  312. Chapter 11: Nuclear Physics
  313. Chapter Introduction: Radioactive Sentinel
  314. 11.1 The Nucleus
  315. 11.2 Radioactivity
  316. 11.2a Alpha Decay
  317. 11.2b Beta Decay
  318. 11.2c Gamma Decay
  319. 11.2d Radioactivity and Energy
  320. 11.2e Applications
  321. 11.3 Half-Life
  322. 11.3a Quantifying Half-Lives
  323. 11.3b Radioactive Dating
  324. Medical Applications: Radiation: A Killer Turned Lifesaver
  325. 11.4 Artificial Nuclear Reactions
  326. 11.5 Nuclear Binding Energy
  327. 11.6 Nuclear Fission
  328. 11.6b Nuclear Power Plants
  329. 11.6c Power Plant Accidents
  330. 11.6a Atomic Bombs
  331. 11.7 Nuclear Fusion
  332. 11.7a Fusion in Stars
  333. 11.7b Thermonuclear Weapons
  334. 11.7c Controlled Fusion
  335. 11.7d Cold Fusion
  336. Profiles in Physics: A Gallery of Nuclear Scientists
  337. Summary
  338. Important Equations
  339. Mapping it Out!
  340. Questions
  341. Problems
  342. Challenges
  343. Chapter 12: Relativity, Particle Physics, and Cosmology
  344. Chapter Introduction: Antimatter, Available at a Medical Facility Near You
  345. 12.1 Special Relativity: The Physics of High Velocity
  346. 12.1a Postulates of Special Relativity
  347. 12.1b Predictions of Special Relativity
  348. 12.2 General Relativity
  349. 12.2a Introduction
  350. 12.2b Einstein’s Theory of General Relativity
  351. 12.2c Motion in Curved Spacetime
  352. 12.3 Forces and Particles
  353. 12.3a The Four Forces: Natural Interactions among Particles
  354. 12.3b Classification Schemes for Particles
  355. 12.3c Spin
  356. 12.3d Elementary Particle Lexicon
  357. 12.4 Quarks: Order Out of Chaos
  358. 12.4a Quarks
  359. 12.5 The Standard Model and GUTs
  360. 12.5a Quark Colors and Flavors
  361. 12.5b Charm, Truth, and Beauty
  362. 12.5c The Electroweak Interaction and GUTs
  363. 12.6 Cosmology
  364. 12.6a Geometry, Dark Matter and Dark Energy
  365. 12.6b The Inflationary Universe
  366. Astronomical Application: Big Bang Nucleosynthesis
  367. Profiles in Physics: Murray Gell-Mann, Quark-atech
  368. Summary
  369. Important Equations
  370. Mapping it Out!
  371. Questions
  372. Problems
  373. Challenges
  374. Appendixes
  375. A: Winners of the Nobel Prize in Physics
  376. B: Math Review
  377. C: Answers
  378. Glossary
  379. Index

 

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