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The finite element method in engineering /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-005.mrc:330430646:3164
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-005.mrc:330430646:3164?format=raw

LEADER: 03164mam a2200349 a 4500
001 2258464
005 20220616003505.0
008 990105t19991999maua b 001 0 eng
010 $a 99158637
020 $a075067072X
035 $a(OCoLC)ocm40830329
035 $9ANZ7380CU
035 $a2258464
040 $aDLC$cDLC$dOrLoB-B
050 00 $aTA347.F5$bR36 1999
082 00 $a620/.001/515353$221
100 1 $aRao, S. S.
245 14 $aThe finite element method in engineering /$cSingiresu S. Rao.
250 $a3rd ed.
260 $aBoston :$bButterworth Heinemann,$c[1999], ©1999.
300 $axix, 556 pages :$billustrations ;$c26 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 00 $gCh. 1.$tOverview of Finite Element Method --$gCh. 2.$tDiscretization of the Domain --$gCh. 3.$tInterpolation Models --$gCh. 4.$tHigher Order and Isoparametric Elements --$gCh. 5.$tDerivation of Element Matrices and Vectors --$gCh. 6.$tAssembly of Element Matrices and Vectors and Derivation of System Equations --$gCh. 7.$tNumerical Solution of Finite Element Equations --$gCh. 8.$tBasic Equations and Solution Procedure --$gCh. 9.$tAnalysis of Trusses, Beams and Frames --$gCh. 10.$tAnalysis of Plates --$gCh. 11.$tAnalysis of Three-Dimensional Problems --$gCh. 12.$tDynamic Analysis --$gCh. 13.$tFormulation and Solution Procedure --$gCh. 14.$tOne-Dimensional Problems --$gCh. 15.$tTwo-Dimensional Problems --$gCh. 16.$tThree-Dimensional Problems --$gCh. 17.$tBasic Equations of Fluid Mechanics --$gCh. 18.$tInviscid and Incompressible Flows --$gCh. 19.$tViscous and Non-Newtonian Flows --$gCh. 20.$tSolution of Quasi-Harmonic Equations --$gCh. 21.$tSolution of Helmholtz Equation --
505 80 $gCh. 22.$tSolution of Reynolds Equation --$gApp.$tA Green-Gauss Theorem.
520 $aWith the revolution in readily available computing power, the finite element method has become one of the most important tools for the modern engineer. This method of analyzing and modeling materials, structures and forms is based on turning physical shapes into mathematical models made up from descriptive nodes, which can be manipulated using matrix methods.
520 8 $aHowever, it is vital that the student fully understands the theory and knowledge that underpin this technique before it is possible to utilize it in practice. Professor Rao, who has many years of teaching experience at one of the country's leading centers of technical excellence, explains the topics from first principles, making use of numerous illustrations and examples and breaking the subject into easily absorbed segments which will guide the reader through the material in stages.
520 8 $aAudience: For advanced undergraduate and postgraduate students of mechanical, civil, and aeronautical engineering, as well as practicing engineers wishing to update their knowledge.
650 0 $aFinite element method.$0http://id.loc.gov/authorities/subjects/sh85048349
650 0 $aEngineering mathematics.$0http://id.loc.gov/authorities/subjects/sh85043235
852 00 $boff,eng$hTA347.F5$iR36 1999