Book contents
- Rigid Body Dynamics
- Reviews
- Rigid Body Dynamics
- Copyright page
- Contents
- Preface
- Abbreviations
- 1 Particle Dynamics
- 2 Interaction Forces between Rigid Bodies
- 3 Mass Distribution
- 4 Vector Theorems
- 5 Work–Energy Theorem
- 6 The Method of Virtual Power
- 7 Lagrange’s Equations
- 8 Introduction to Percussive Dynamics
- Bibliography
- Further Reading
- Index
3 - Mass Distribution
Published online by Cambridge University Press: 21 March 2022
Book contents
- Rigid Body Dynamics
- Reviews
- Rigid Body Dynamics
- Copyright page
- Contents
- Preface
- Abbreviations
- 1 Particle Dynamics
- 2 Interaction Forces between Rigid Bodies
- 3 Mass Distribution
- 4 Vector Theorems
- 5 Work–Energy Theorem
- 6 The Method of Virtual Power
- 7 Lagrange’s Equations
- 8 Introduction to Percussive Dynamics
- Bibliography
- Further Reading
- Index
Summary
Introduction of all concepts related to the mass distribution of the system (center of mass and inertia tensor about a point) needed to apply the vector theorems that solve the dynamics of a rigid body. A few theorems that help calculate those elements (Pappus–Guldon theorems, Steiner's theorem) are presented. The qualitative assessment of the inertia tensor from the mass distribution geometry is discussed and illustrated through several examples. Principal directions of inertia (or of rotation) are introduced, and symmetrical and spherical rotors are defined. The inertia ellipsoid (a tool to visualize the inertia tensor) is presented in the last section.
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- Rigid Body Dynamics , pp. 151 - 201Publisher: Cambridge University PressPrint publication year: 2022