Dynamics Theory and Application of Kane's Method Carlos M. Roithmayr, Dewey H. Hodges
Material type: TextPublication details: UK Cambridge 2016Description: 511PISBN:- 9781107005693
- 531.6 CAR
Item type | Current library | Collection | Call number | Status | Date due | Barcode |
---|---|---|---|---|---|---|
Books | IIITDM Kurnool General Stacks | Non-fiction | 531.6 CAR (Browse shelf(Opens below)) | Available | 0005448 | |
Books | IIITDM Kurnool General Stacks | Non-fiction | 531.6 CAR (Browse shelf(Opens below)) | Available | 0005449 | |
Books | IIITDM Kurnool General Stacks | Non-fiction | 531.6 CAR (Browse shelf(Opens below)) | Available | 0005450 |
1. Differentiation of vectors
2. Kinematics
3. Constraints
4. Mass distribution
5. Generalized forces
6. Constraint forces, constraint torques
7. Energy functions
8. Formulation of equations of motion
9. Extraction of information from equations of motion
10. Kinematics of orientation
Problem sets
Appendix I. Direction cosines as functions of orientation angles
Appendix II. Kinematical differential equations in terms of orientation angles
Appendix III. Inertia properties of uniform bodies
This book is ideal for teaching students in engineering or physics the skills necessary to analyze motions of complex mechanical systems such as spacecraft, robotic manipulators, and articulated scientific instruments. Kane's method, which emerged recently, reduces the labor needed to derive equations of motion and leads to equations that are simpler and more readily solved by computer, in comparison to earlier, classical approaches. Moreover, the method is highly systematic and thus easy to teach. This book is a revision of Dynamics: Theory and Applications (1985), by T. R. Kane and D. A. Levinson, and presents the method for forming equations of motion by constructing generalized active forces and generalized inertia forces. Important additional topics include approaches for dealing with finite rotation, an updated treatment of constraint forces and constraint torques, an extension of Kane's method to deal with a broader class of nonholonomic constraint equations, and other recent advances
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