Introduction to Physics
Mechanics, Hydrodynamics Thermodynamics
- 1st Edition - January 1, 1966
- Authors: P. Frauenfelder, P. Huber
- Language: English
- Paperback ISBN:9 7 8 - 0 - 0 8 - 0 1 3 5 2 1 - 2
- eBook ISBN:9 7 8 - 1 - 4 8 3 2 - 8 0 8 5 - 1
Introduction of Physics: Mechanics , Hydrodynamics, Thermodynamics covers the principles of matter and its motion through space and time, as well as the related concepts of energy… Read more
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Request a sales quoteIntroduction of Physics: Mechanics , Hydrodynamics, Thermodynamics covers the principles of matter and its motion through space and time, as well as the related concepts of energy and force. This book is composed of eleven chapters, and begins with an introduction to the basic principles of mechanics, hydrodynamics, and thermodynamics. The subsequent chapters deal with the statics of rigid bodies and the dynamics of particles and rigid bodies. These topics are followed by discussions on elasticity, mechanics of fluids, the basic concept of thermodynamic, kinetic theory, and crystal structure of the solid .The final chapters consider the laws of the thermodynamic and their applications. This book will prove useful to physicists, scientists, thermodynamics engineers.
Translators' Preface
Chapter 1. Introduction
1. General Survey
2. The Three Standards of Measurement
3. Subunits
4. Quantities, Magnitudes, Units, and Dimensions
5. Scalars and Vectors
6. Vector Algebra
7. Theory of Errors
Chapter 2. Statics of Rigid Bodies
8. Newton's Laws
9. Fundamental Concepts of the Statics of Rigid Bodies
10. Calculation of the Complete System of Forces
11. Resultant of Forces which Do Not Act at the Same Point
12. Systems of Parallel Forces Acting on a Rigid Body
13. Elementary Examples in Plane Statics
14. The Law of Static Friction
15. Examples Using the Law of Static Friction
16. Theory of the Center of Gravity
17. The Three Types of Equilibrium
Chapter 3. Dynamics of A Particle
18. Coordinate Systems and Fundamental Concepts of Dynamics
19. Kinematics
20. The Most Important Cases in Kinematics
21. Newton's Laws
22. Application of Newton's Laws
23. Sliding and Rolling Friction
24. Momentum
25. The Law of Areas for Central Forces
26. Newton's Law of Gravitation
27. Transformation to Accelerated Coordinate Systems
28. Work and Energy
29. The Principle of Conservation of Energy
30. Power and Efficiency
31. Harmonic Motion
32. Examples of Linear Restoring Forces
33. Damped Harmonic Motion
34. Phase Relations in Harmonic Motion
35. Complex Numbers, Phasors, and Superposition of Harmonic Oscillations along one Axis
36. Beats
37. Superposition of Harmonic Oscillations along two Axes. Lissajous Figures
38. Forced Oscillations and Resonance
39. The Laws of Collision
40. Relative Motion. Collisions with a Moving Wall
41. Relative Accelerations. Inertial Forces in Relative Motion
Chapter 4. Dynamics of Rigid Bodies
42. Motion of the Center of Mass; The Center of Mass Law
43. The Law of Rotational Motion for Rotation about a Fixed Axis. The Angular Momentum Law
44. Moments of Inertia
45. Applications of the Angular Momentum Law to Rotation about a Fixed Axis
46. The General Law of Rotational Motion
47. Elementary Theory of the Top
48. Calculation of the Ellipsoid of Inertia of Symmetrical Bodies
Chapter 5. Elasticity
49. The General Concept of Stress
50. The State of Plane Stress
51. The Mohr Circle for the State of Plane Stress
52. Deformation and Strain
53. The Limits of Validity of Hooke's Law
54. Plane Bending of a Beam
55. The Elastic Curve of a Bent Beam
56. Pure Torsion
57. The Spiral Spring
Chapter 6. Mechanics of Fluids
58. Statics of Ideal Liquids
59. Aerostatics; the Study of Gases at Rest
60. Statics of Real Liquids
61. Hydrodynamics of Ideal Liquids
62. Hydrodynamics of Real Liquids
Chapter 7. Basic Concepts of Thermodynamics
63. Introduction
64. The Concept of Temperature
65. The Principles of Thermal Expansion
66. Absolute Temperature and the Ideal Gas Law
67. The Mass Units of Thermodynamics
68. The Equation of State of an Ideal Gas
69. The Concept of Quantity of Heat
70. Measurement of Heat. Calorimetry
71. Specific Heat Capacities of Gases, Liquids and Solids
72. Transition Points. Latent Heats
Chapter 8. Kinetic Theory
73. Thermal Motion
74. Kinetic Theory of an Ideal Gas
75. The van der Waals Theory of a Gas
76. Sizes of Molecules. Collision Frequency. Mean Free Path
77. Diffusion
78. Heat Transfer
Chapter 9. Crystal Structure of Solids
79. Fundamental Principles
80. The Basic Cell Types of the Elements (A-types)
81. Some Basic Cell Types of Inorganic Compounds
Chapter 10. The Laws of Thermodynamics
82. The First Law of Thermodynamics
83. Application of the First Law to Cyclic Processes
84. Molecular Interpretation of the First Law
85. Isothermal and Adiabatic Processes in Ideal Gases
86. The Second Law of Thermodynamics
87. The Reversible Carnot Cycle using an Ideal Gas
88. Measure of the Irreversibility of a Process. Entropy
89. Irreversible Processes
90. A Special Cyclic Process for a van der Waals Gas
Chapter 11. Applications of the First and Second Laws
91. Thermodynamic Properties; State Variables and State Functions
92. Phenomenological Properties of Matter
93. Thermodynamic Functions and Maxwell's Relations
94. The Joule-Kelvin Effect
95. Equilibrium Conditions of a Chemical Reaction
Appendix I. Definitions of Concentration
Appendix II. Calculation of Moments Of Inertia
Appendix III. Absolute Density of Water
Appendix IV. Approximate Values of Some Important Physical Constants
Problems for the Student
Index
- No. of pages: 602
- Language: English
- Edition: 1
- Published: January 1, 1966
- Imprint: Pergamon
- Paperback ISBN: 9780080135212
- eBook ISBN: 9781483280851
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