Chapter
1.2 Frame of Reference and Unit of Length
1.4 Keplerian Laws of Planetary Motion
1.6 Newtonian Frame: First Law of Motion
1.7 Motion of Two Gravitating Bodies
1.8 Three Gravitating Bodies: Lagrange Configurations
1.9 The Restricted Problem of 3 Bodies
1.10 The n-Body Problem: First Integrals
1.11 Dispersion of an n-Body System
1.12 Some Inequalities for an n-Body System
1.13 Generalized Newtonian Postulate
1.14 Gravitational Potential and Potential Energy
1.15 Some Properties of Gravitational Fields
1.16 Mutual Fields of Distant Bodies
1.17 Fields of Axisymmetric Bodies
1.18 Gravity and the Figure of the Earth
CHAPTER 2. FOUNDATIONS OF MECHANICS: GENERAL PRINCIPLES
2.1 Frames of Reference and Rates of Change
2.2 Motion Relative to tbe Earth
2.3 Motion under Independent Constraint
2.4 Foucault Pendulum Experiment
2.5 Axisymmetric Constraint: Stability and Range of Motion
2.7 Force: Second and Third Laws of Motion
2.8 Fictitious Body-forces
2.9 Continuum Dynamics: Preliminary Notions
2.10 Continuum Dynamics: Equations of Motion
2.11 Stress Analysis in a Continuum
2.12 Principles of Work and Energy
CHAPTER 3. GENERAL MOTION OF A RIGID BODY
3.3 Application of the Principles
3.4 Properties of the Inertia Tensor
3.6 Differential Equations of Euler
3.7 Free Rotation of a General Body
3.8 Steady States: Precession
Principles of Dynamics
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