02032nam a22002297a 4500999001500000003000400015005001700019008004100036020001800077028002400095040002400119082002300143100002400166245003600190250000800226260004100234300000800275504136400283650001501647942001201662952012801674 c2203d2203OSt20190530110609.0190529b ||||| |||| 00| 0 eng d a0-471-62789-5 bProf. S. C. Bhaduri aBSDUbEnglishcBSDU a620.001515353bSEG aSegerlind, Larry J  aApplied Finite Element Analysis b2nd aNew YorkbJohn Wiley and Sonscc1984 a427 aContents : Part ONE : Basic Concepts Chapter 1 Introduction Chapter 2 : One-Dimensional linear Element Chapter 3 : A Finite element Example Chapter 4 : Element matrics : Galerkin Formulation Chapter 5 : Two-DImensional Elements Chapter 6 : Coordinate Systems Part TWO - Field Problems Chapter 7 Two -Dimensional Field Equation Chapter 8 : TOrsion of Noncircular Sections Chapter 9 : Derivative Boundary Conditions : Point Sources and Sinks Chapter 10 : Irrotational Flow Chapter 11 : Heat Transfer by Conduction and Convection Chapter 12 : Acostical Vibrations Chapter 13 : Axisymmetric Field Problems Chapter 14 : Time -Dependent Field Problems ; Theoretical Considerations Chapter 15 : Time-Dependent Field Problems : Practical Considerations Chapter 16 : Computer Program for Two -Dimensional Field Problems Chapter 17 : The Axial Force Member Chapater 18 : Element Matrices : Potential Energy Formulations Chapter 19 : The Truss element Chapter 20 : A Beam Element Chapter 21 : A Plane Frame Element Chapter 22 : Theory of Elasticity Chapter 23 : Two -Dimensional Elasticity Chapter 24 : Axisymmetric Elasticity Chapter 25 : Computer Programs for Structural and solid Mechanics Part FOUR : Linear and Quadratic Elements Chapter 26 : Element Shape Functions Chapter 27 : Element Matrices Chapter 28 Isoparametric Computer Programs  aElectrical 2ddccBK 00102ddc4070aBSDUbBSDUcGENd2019-05-29l1o620.001515353 SEGpDB0144r2023-04-06 00:00:00s2023-03-21w2019-05-29yBK