Advanced Dynamics
Advanced Dynamics
$112.00
USDAdvanced Dynamics is a broad and detailed description of the analytical tools of dynamics as used in mechanical and aerospace engineering. The strengths and weaknesses of various approaches are discussed, and particular emphasis is placed on learning through problem solving. The book begins with a thorough review of vectorial dynamics and goes on to cover Lagrange's and Hamilton's equations as well as less familiar topics such as impulse response, and differential forms and integrability. Techniques are described that provide a considerable improvement in computational efficiency over the standard classical methods, especially when applied to complex dynamical systems. The treatment of numerical analysis includes discussions of numerical stability and constraint stabilization. Many worked examples and homework problems are provided. The book is intended for use on graduate courses on dynamics, and will also appeal to researchers in mechanical and aerospace engineering.
- Provides broad coverage of advanced dynamical principles
- Practical problem solving emphasized through worked examples and homework exercises
- Presents several methods that offer simpler analysis and improved computational efficiency over standard approaches
Reviews & endorsements
"Throughout there are examples in the text which are natural and illustrate the ideas very well. There are also excellent collections of problems (with solutions) with each chapter which are challenging and good training in modelling particulate, rigid and jointed systems of considerable variety." Contemporary Physics, Dr. C. Athorne, University of Glasgow, UK
"...a verty useful reference for the majority of mathematical methods applicable to particle and rigid body dynamics." The Aeronautical Journal, Dr. H. R. Harrison
Product details
November 2006Paperback
9780521029933
436 pages
245 × 170 × 24 mm
0.683kg
115 exercises
Available
Table of Contents
- Preface
- 1. Introduction to particle dynamics
- 2. Lagrange's and Hamilton's equations
- 3. Kinematics and dynamics of a rigid body
- 4. Equations of motion: differential approach
- 5. Equations of motion: integral approach
- 6. Introduction to numerical methods
- Appendix
- Index.
