A first course in mechanics
Author(s)
Bibliographic Information
A first course in mechanics
(Oxford science publications)
Oxford University Press, 1991
- : pbk
Available at 5 libraries
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Note
Includes index
Description and Table of Contents
- Volume
-
ISBN 9780198534303
Description
This textbook provides a simple introduction to mechanics for students coming to the subject for the first time. The text is based on courses given to first and second year undergraduates and has been written with this audience very much in mind. Prerequisites are only a basic familiarity with vectors, matrices and elementary calculus. The book aims to provide an understanding of Newtonian mechanics using the tools of modern algebra. The first chapters introduce the fundamentals of the motion of rigid bodies: Newton's laws, forces, linear and angular momentum, and the conservation of energy. In the later chapters the theory of Lagrangian mechanics is developed and extended to cover applications to impulsive forces.
Table of Contents
- Newton's laws
- Central forces
- Energy
- Rotating frames
- Many-particle systems
- Rigid bodies: equations
- Soluble problems in rigid body motion
- Lagrangian mechanics
- Impulsive forces
- Appendices 1, 2, 3
- Solutions to odd-numbered exercises.
- Volume
-
: pbk ISBN 9780198534334
Description
This textbook provides a simple introduction to mechanics for students coming to the subject for the first time. The text is based on courses given to first and second year undergraduates and has been written with this audience in mind. Prerequisites are only a basic familiarity with vectors, matrices, and elementary calculus.
The author's aim is to provide an understanding of Newtonian mechanics using the tools of modern algebra. The first chapters of the book introduce the fundamentals of the motion of rigid bodies: Newton's laws, forces, linear and angular momentum, and the conservation of energy. In the later chapters the theory of Lagrangian mechanics is developed and extended to cover applications to impulsive forces. Throughout, the theory is illustrated with many worked examples, and numerous exercises (some
with solutions) are provided.
Table of Contents
- 1. Newton's laws
- 2. Central forces
- 3. Energy
- 4. Rotating frames
- 5. Many-particle systems
- 6. Rigid bodies: equations
- 7. Soluble problems in rigid body motion
- 8. Lagrangian mechanics
- 9. Impulsive forces
- Appendices 1, 2, 3
- Solutions to odd-numbered exercises
- Index
by "Nielsen BookData"