Cargando…
Introduction to Physics : Mechanics, Hydrodynamics Thermodynamics.
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 and force. This book is composed of eleven chapters, and begins with an introduction to the basic principles of mechanics...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Burlington :
Elsevier Science,
2013.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Introduction to Physics: Mechanics, Hydrodynamics Thermodynamics; Copyright Page; Table of Contents; 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 body13. elementary examples in plane statics; 14. the l aw of static friction; 15. examples using the l aw 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 systems28. 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 motionchapter 4. dynamics of rigid bodies; 4 2 . 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 abouta 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 stress52. 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.