- Page 6: Contents1 Introduction 1 - 12 Gener
- Page 9 and 10: The available functions are organiz
- Page 11 and 12: clearPurpose:Syntax:Remove variable
- Page 13 and 14: dispPurpose:Syntax:Display a variab
- Page 15 and 16: formatPurpose:Syntax:Control the ou
- Page 17 and 18: loadPurpose:Syntax:Retrieve variabl
- Page 19 and 20: savePurpose:Syntax:Save workspace v
- Page 21 and 22: whatPurpose:Syntax:Directory listin
- Page 23 and 24: ...Purpose:Continuation.Syntax:...D
- Page 26 and 27: 3 Matrix functionsThe group of matr
- Page 28 and 29: :Purpose:Create vectors and do matr
- Page 30 and 31: + − ∗ /Purpose:Syntax:Matrix ar
- Page 32 and 33: detPurpose:Syntax:Matrix determinan
- Page 34 and 35: fullPurpose:Syntax:Convert sparse m
- Page 36 and 37: lengthPurpose:Syntax:Vector length.
- Page 38 and 39: minPurpose:Syntax:Minimum element(s
- Page 40 and 41: edPurpose:Syntax:Reduce the size of
- Page 42 and 43: sparsePurpose:Syntax:Create sparse
- Page 44 and 45: sqrtPurpose:Syntax:Square root.B=sq
- Page 46: zerosPurpose:Syntax:Generate a zero
- Page 49 and 50: hookePurpose:Syntax:Compute materia
- Page 51 and 52: dmisesPurpose:Syntax:Form the elast
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5.2 Spring elementThe spring elemen
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The following functions are availab
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Spring elementspring1sPurpose:Compu
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ar2eTwo dimensional bar elementPurp
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ar2gTwo dimensional bar elementThe
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ar3eThree dimensional bar elementPu
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5.4 Heat flow elementsHeat flow ele
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Two dimensional heat flow elementsf
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Two dimensional heat flow elementsf
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Two dimensional heat flow elementsf
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Two dimensional heat flow elementsf
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Two dimensional heat flow elementsf
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Two dimensional heat flow elementsf
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Three dimensional heat flow element
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5.5 Solid elementsSolid elements ar
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planteplantsplantfplanqeplanqsplanr
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Two dimensional solid elementsplant
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Two dimensional solid elementsplant
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Two dimensional solid elementsplanq
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Two dimensional solid elementsplanq
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Two dimensional solid elementsplanr
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Two dimensional solid elementsplanr
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Two dimensional solid elementsplant
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Two dimensional solid elementsplant
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Two dimensional solid elementsplani
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Two dimensional solid elementsplani
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Two dimensional solid elementsplani
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Two dimensional solid elementsplani
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Two dimensional solid elementsplani
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Two dimensional solid elementsplani
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Three dimensional solid elementssol
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Three dimensional solid elementssol
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Three dimensional solid elementssol
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eam2eTwo dimensional beam elementPu
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eam2eTwo dimensional beam elementwh
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eam2sTwo dimensional beam elementTh
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eam2tTwo dimensional Timoshenko bea
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eam2tsTwo dimensional Timoshenko be
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eam2wTwo dimensional beam elementTh
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eam2wsTwo dimensional beam elementT
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eam2gTwo dimensional beam elementTh
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eam2gsTwo dimensional beam elementP
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eam2dTwo dimensional beam elementPu
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eam2dsTwo dimensional beam elementP
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Three dimensional beam elementbeam3
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Three dimensional beam elementbeam3
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Three dimensional beam elementbeam3
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platrePlate elementPurpose:Compute
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platrePlate elementwhere∗∇ =⎡
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platrsPlate elementTheory:The curva
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6.2 Static system functionsThe grou
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Static system functionscoordxtrPurp
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Static system functionseigenPurpose
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Static system functionsextractExamp
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Static system functionssolveqPurpos
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6.3 Dynamic system functionsThe gro
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Dynamic system functionsdyna2fPurpo
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Dynamic system functionsfreqrespPur
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Dynamic system functionsifftPurpose
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Dynamic system functionsspectraPurp
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Dynamic system functionsstep1⎡f =
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Dynamic system functionsstep2⎡f =
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7 Statements and macrosStatements d
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forPurpose:Syntax:Initiate a loop.f
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functionPurpose:Syntax:Define a new
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8 Graphics functionsThe group of gr
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clfPurpose:Syntax:Clear current fig
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eldisp2Purpose:Syntax:Draw the defo
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eldia2The magnification factor magn
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eliso2Purpose:Syntax:Display elemen
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figurePurpose:Syntax:Create figures
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gridPurpose:Syntax:Grid lines for 2
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plotPurpose:Syntax:Linear two dimen
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textPurpose:Syntax:Add text to curr
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xlabel, ylabel, zlabelPurpose:Synta
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9.2 MATLAB introductionThe examples
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MATLAB introductionexi1>> whosName
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MATLAB introductionexi2Purpose:Show
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MATLAB introductionexi2The determin
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MATLAB introductionexi3B =C =3 95 7
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MATLAB introductionexi5Purpose:How
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9.3 Static analysisThis section ill
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Static analysisexs1and the load vec
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Static analysisexs1The spring force
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Static analysisexs2>> Edof=[1 1 22
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Static analysisexs3Purpose:Analysis
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Static analysisexs3Resultsa = Q =0
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Static analysisexs4A global stiffne
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Static analysisexs4>> N8=bar2s(ex8,
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Static analysisexs5>> I1=2510e-8; I
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Static analysisexs5Section force di
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Static analysisexs5543210300000−1
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Static analysisexs6Purpose:Set up a
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Static analysisexs6% ----- Create a
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Static analysisexs7Purpose:Analysis
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Static analysisexs7Resultsa= Q=1.0e
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Static analysisexs7[a,Q]=solveq(K,f
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9.4 Dynamic analysisThis section co
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Dynamic analysisexd1% --- topology
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Dynamic analysisexd1An attractive w
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Dynamic analysis2exd2[Dsnap,D,V,A]=
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Dynamic analysisexd3Purpose:This ex
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Dynamic analysisexd4Purpose:This ex
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Dynamic analysisexd4Snapshots (sec)
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exn1Nonlinear analysisPurpose:Analy
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exn1Nonlinear analysisbc=[1 0;2 0;3
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exn2Nonlinear analysisPurpose:Buckl
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exn2Nonlinear analysisThe following
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Indexabs . . . . . . . . . . . . 3