16.225 - Computational Mechanics of Materials Homework assignment # 5 Handed out: 11/24/03 Due: 12/8/03
Endow your version of sumMIT with dynamics capability. To this end, implement Newmark's algorithm, both in implicit ( = 0) and explicit ( = 0) form. In

16.225 - Computational Mechanics of Materials Homework assignment # 5 Handed out: 11/24/03 Due: 12/8/03
Endow your version of sumMIT with dynamics capability. To this end, implement Newmark's algorithm, both in implicit ( = 0) and explicit ( = 0) form. In

16.225 - Computational Mechanics of Materials Homework assignment # 4 Handed out: 11/3/03 Due: 11/17/03
Consider a nonlinear elastic solid described by the strain energy density: W = k[J log(J ) - J ] + trCdev 2 where Cdev = J -2/3 C
and k and are materia

16.225 - Computational Mechanics of Materials Homework assignment # 4 Handed out: 11/3/03 Due: 11/17/03
Consider a nonlinear elastic solid described by the strain energy density: W = k[J log(J ) - J ] + trCdev 2 where Cdev = J -2/3 C
and k and are materia

16.225 - Computational Mechanics of Materials Homework assignment # 3 Handed out: 10/15/03 Due: 10/29/03
1. Behavior of the 3-node simplex element in the incompressible limit. Using the 3-node simplex element, repeat the plane-strain, plate-withhole calcu

16.225 - Computational Mechanics of Materials Homework assignment # 3 Handed out: 10/15/03 Due: 10/29/03
1. Behavior of the 3-node simplex element in the incompressible limit. Using the 3-node simplex element, repeat the plane-strain, plate-withhole calcu

16.225 - Computational Mechanics of Materials Homework assignment # 1 Handed out: 9/10/03 Due: 9/24/03
September 22, 2003
1. Verify that the Euler-Lagrange equations corresponding to the HuWashizu functional are the field equations of linear elasticity. 2