Preface
1. Introduction
2. Temperature and Thermal Equilibrium
3. Thermometers and Temperature Scales
4. Thermal Expansion
5. Heat Transfer, Specific Heat, and Calorimetry
6. Phase Changes
7. Mechanisms of Heat Transfer
8. Introduction
9. Molecular Model of an Ideal Gas
10. Pressure, Temperature, and RMS Speed
11. Heat Capacity and Equipartition of Energy
12. Distribution of Molecular Speeds
13. Introduction
14. Thermodynamic Systems
15. Work, Heat, and Internal Energy
16. First Law of Thermodynamics
17. Thermodynamic Processes
18. Heat Capacities of an Ideal Gas
19. Adiabatic Processes for an Ideal Gas
20. Introduction
21. Reversible and Irreversible Processes
22. Heat Engines
23. Refrigerators and Heat Pumps
24. Statements of the Second Law of Thermodynamics
25. The Carnot Cycle
26. Entropy
27. Entropy on a Microscopic Scale
28. Introduction
29. Electric Charge
30. Conductors, Insulators, and Charging by Induction
31. Coulomb's Law
32. Electric Field
33. Calculating Electric Fields of Charge Distributions
34. Electric Field Lines
35. Electric Dipoles
36. Introduction
37. Electric Flux
38. Explaining Gauss’s Law
39. Applying Gauss’s Law
40. Conductors in Electrostatic Equilibrium
41. Introduction
42. Electric Potential Energy
43. Electric Potential and Potential Difference
44. Calculations of Electric Potential
45. Determining Field from Potential
46. Equipotential Surfaces and Conductors
47. Applications of Electrostatics
48. Introduction
49. Capacitors and Capacitance
50. Capacitors in Series and in Parallel
51. Energy Stored in a Capacitor
52. Capacitor with a Dielectric
53. Molecular Model of a Dielectric
54. Introduction
55. Electrical Current
56. Model of Conduction in Metals
57. Resistivity and Resistance
58. Ohm's Law
59. Electrical Energy and Power
60. Superconductors
61. Introduction
62. Electromotive Force
63. Resistors in Series and Parallel
64. Kirchhoff's Rules
65. Electrical Measuring Instruments
66. RC Circuits
67. Household Wiring and Electrical Safety
68. Introduction
69. Magnetism and Its Historical Discoveries
70. Magnetic Fields and Lines
71. Motion of a Charged Particle in a Magnetic Field
72. Magnetic Force on a Current-Carrying Conductor
73. Force and Torque on a Current Loop
74. The Hall Effect
75. Applications of Magnetic Forces and Fields
76. Introduction
77. The Biot-Savart Law
78. Magnetic Field Due to a Thin Straight Wire
79. Magnetic Force between Two Parallel Currents
80. Magnetic Field of a Current Loop
81. Ampère’s Law
82. Solenoids and Toroids
83. Magnetism in Matter
84. Introduction
85. Faraday’s Law
86. Lenz's Law
87. Motional Emf
88. Induced Electric Fields
89. Eddy Currents
90. Electric Generators and Back Emf
91. Applications of Electromagnetic Induction
92. Introduction
93. Mutual Inductance
94. Self-Inductance and Inductors
95. Energy in a Magnetic Field
96. RL Circuits
97. Oscillations in an LC Circuit
98. RLC Series Circuits
99. Introduction
100. AC Sources
101. Simple AC Circuits
102. RLC Series Circuits with AC
103. Power in an AC Circuit
104. Resonance in an AC Circuit
105. Transformers
106. Introduction
107. Maxwell’s Equations and Electromagnetic Waves
108. Plane Electromagnetic Waves
109. Energy Carried by Electromagnetic Waves
110. Momentum and Radiation Pressure
111. The Electromagnetic Spectrum
Units
Conversion Factors
Fundamental Constants
Astronomical Data
Mathematical Formulas
Chemistry
The Greek Alphabet
University Physics Volume 2 by cnxuniphysics is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.