Subject Code: ME6L011 Prerequisites: None	Finite Elements Methods in Engineering	L – T – P : 3 – 1 – 0	Credits: 4
Integral Formulations and Variational Methods, Second-Order boundary value problems; Bending of Beams; FE Error Analysis; Eigenvalue and Time-Dependent Problems; Numerical Integration and Computer Implementation, Single-Variable Problems; Interpolation Functions, Numerical Integration and Modeling; Plane Elasticity; Flows of Viscous Incompressible Fluids; Bending of Elastic Plates; Computer Implementation, Analysis of Three-Dimensional and Nonlinear Problems. Recommended Books: An Introduction to the Finite Element Method – J. N. Reddy (McGraw Hill) An Introduction to Nonlinear Finite Element Method – J. N. Reddy (Oxford) Concepts and Applications of Finite Element Analysis – R D Cook (Willey) The Finite Element Method: Its Basis & Fundamental – O C Zienkiewicz (Elsevier) The Finite Element Method in Engineering – Rao (Elsevier) Finite Element Methods for Engineers – U. S. Dixit (Cengage) Introduction to Finite Elements in Engineering – T. R. Chandrupatla (PHI)