02002nam a2200241Ia 4500999001300000001000800013003000400021005001700025008004100042020001800083028003700101040002400138082001500162100002000177245002500197260005600222300000800278500073800286504059001024650001501614942001201629952011901641 c604d6040002318OSt20190326125547.0170602s9999 xx 000 0 und d a9788126531684 q2016bAllied Informatics, Jaipur bEnglishaBSDUcBSDU a620.3bPAL aPalm, William J 0aMechanical Vibration bWiley India Pvt. Ltd. Indiaa New Delhic2013,c2010 a700 aBuilding on the success of Modeling, Analysis, and Control of Dynamic Systems, 2/e, William Palm's new book offers a concise introduction to vibrations theory and applications. This text is intended to be an introduction to the subject of mechanical vibrations, for courses typically offered in the junior or senior year in mechanical engineering, aerospace engineering, or engineering mechanics curricula. Common applications of the subject are vehicle suspension systems and vibration isolators and absorbers designed to minimize the effects of vibration on people and machines. The subject is based on dynamics and applied differential equations. These topics, normally covered in prerequisite courses, are reviewed in the text. aContents · Introduction to Mechanical Vibration. · Models with One Degree of Freedom. · Free Response with a Single Degree of Freedom. · Harmonic Response with a Single Degree of Freedom. · General Forced Response. · Two-Degree of Freedom Systems. · Vibration Suppression and Control. · Matrix Methods for Multi-Degree of Freedom Systems. · Vibration Measurement and Testing. · Distributed Systems. · Dynamic Finite Element Analysis. Appendix A: Introduction to MATLAB. Appendix B: Numerical Solution Methods. Appendix C: Mechanical Properties of Common Metals. aMechanical 2ddccBK 00102ddc4070aBSDUbBSDUd2016-12-12g819.00l0o620.3 PALp002318r2020-02-12 00:00:00v819.00w2017-06-02yBK