| Code |
Course Name |
Language |
Type |
| MAT 374 |
Computational Cont. Mechanics |
Turkish |
Compulsory |
| Local Credits |
ECTS |
Theoretical |
Tutorial |
Laboratory |
| 3 |
7 |
3 |
0 |
0 |
| Course Prerequisites and Class Restriction |
| Prerequisites |
(FIZ 101 MIN DD
or FIZ 101E MIN DD)
and (MAT 232 MIN DD
or MAT 232E MIN DD
or MAT 210 MIN DD
or MAT 210E MIN DD
or BIO 210E MIN DD
or BLG 210E MIN DD
or CEV 210 MIN DD
or CEV 210E MIN DD
or DEN 210E MIN DD
or EEE 210E MIN DD
or EEF 210 MIN DD
or EEF 210E MIN DD
or FIZ 210 MIN DD
or GEM 210E MIN DD
or GEO 220 MIN DD
or GEO 220E MIN DD
or INS 210 MIN DD
or INS 210E MIN DD
or KIM 271 MIN DD
or MAK 210E MIN DD
or MAT 201 MIN DD
or MAT 201E MIN DD)
|
| Class Restriction |
None |
| Course Description |
| Index and vector notation: scalar, vector and tensor concepts, summation convention. Deformation, length and angle changes,
area and volume changes, strain invariants, principal axes. Simulation of deformation with MATLAB. Kinematics; velocity,
acceleration, material derivative, kinematics of volume integral. Stress: stress vector and stress tensor, principal stresses.
MATLAB applications related with stress. Compatibility conditions. Conversation laws: conservation of mass and balance of
momentum, angular momentum and energy. Constitutive equation of isotropic elastic solid. Work and Energy: virtual work,
strain and kinetic energy, Ritz energy method. Some MATLAB applications: Deformation of elastic beam, plane elastic waves,
plate vibration. |
|
