Matrix methods in the design analysis of mechanisms and multibody systems:
This book is an integrated approach to kinematic and dynamic analysis. The matrix techniques presented are general and fully applicable to two- or three-dimensional systems. They lend themselves to programming and digital computation and can act as the basis of a usable tool for designers. Technique...
Gespeichert in:
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| Format: | E-Book |
| Sprache: | Englisch |
| Veröffentlicht: |
Cambridge
Cambridge University Press
2013
|
| Links: | https://doi.org/10.1017/CBO9781139032339 |
| Zusammenfassung: | This book is an integrated approach to kinematic and dynamic analysis. The matrix techniques presented are general and fully applicable to two- or three-dimensional systems. They lend themselves to programming and digital computation and can act as the basis of a usable tool for designers. Techniques have broad applicability to the design analysis of all multibody mechanical systems. The more powerful and more flexible the approach, and the less specialisation and reprogramming required for each application, the better. The matrix methods presented have been developed using these ideas as primary goals. Matrix methods can be applied by hand to such problems as the slider-crank mechanism, but this is not the intent of this text, and often the rigor required for such an attempt becomes quite burdensome in comparison with other techniques. The matrix methods have been extensively tested, both in the classroom and in the world of engineering industry. |
| Umfang: | 1 Online-Ressource (xviii, 326 Seiten) |
| ISBN: | 9781139032339 |
Internformat
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| spelling | Uicker, John Joseph Matrix methods in the design analysis of mechanisms and multibody systems John Uicker, University of Wisconsin, Madison, Pradip N. Sheth, University of Virginia, Bahram Ravani, University of California, Davis Matrix Methods in the Design Analysis of Mechanisms & Multibody Systems Cambridge Cambridge University Press 2013 1 Online-Ressource (xviii, 326 Seiten) txt c cr This book is an integrated approach to kinematic and dynamic analysis. The matrix techniques presented are general and fully applicable to two- or three-dimensional systems. They lend themselves to programming and digital computation and can act as the basis of a usable tool for designers. Techniques have broad applicability to the design analysis of all multibody mechanical systems. The more powerful and more flexible the approach, and the less specialisation and reprogramming required for each application, the better. The matrix methods presented have been developed using these ideas as primary goals. Matrix methods can be applied by hand to such problems as the slider-crank mechanism, but this is not the intent of this text, and often the rigor required for such an attempt becomes quite burdensome in comparison with other techniques. The matrix methods have been extensively tested, both in the classroom and in the world of engineering industry. Ravani, Bahram 1953- Sheth, Pradip N. Erscheint auch als Druck-Ausgabe 9780521761093 |
| spellingShingle | Uicker, John Joseph Matrix methods in the design analysis of mechanisms and multibody systems |
| title | Matrix methods in the design analysis of mechanisms and multibody systems |
| title_alt | Matrix Methods in the Design Analysis of Mechanisms & Multibody Systems |
| title_auth | Matrix methods in the design analysis of mechanisms and multibody systems |
| title_exact_search | Matrix methods in the design analysis of mechanisms and multibody systems |
| title_full | Matrix methods in the design analysis of mechanisms and multibody systems John Uicker, University of Wisconsin, Madison, Pradip N. Sheth, University of Virginia, Bahram Ravani, University of California, Davis |
| title_fullStr | Matrix methods in the design analysis of mechanisms and multibody systems John Uicker, University of Wisconsin, Madison, Pradip N. Sheth, University of Virginia, Bahram Ravani, University of California, Davis |
| title_full_unstemmed | Matrix methods in the design analysis of mechanisms and multibody systems John Uicker, University of Wisconsin, Madison, Pradip N. Sheth, University of Virginia, Bahram Ravani, University of California, Davis |
| title_short | Matrix methods in the design analysis of mechanisms and multibody systems |
| title_sort | matrix methods in the design analysis of mechanisms and multibody systems |
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