Axial-force, shear-force and bending moment diagrams; stress and strain; stress-strain relations; elastic and plastic behaviour; elastic constants; simple statically indeterminate (one-degree) problems; review of moment of inertia, product of inertia and principal axes of inertia; elastic torsion of circular shafts; elastic and plastic bending about principal axes of beams with symmetrical cross-section; composite beams; shear stresses due to bending; Mohr's circle for stress; thin-walled pressure vessels; deflection of beams by integration; Euler buckling.
This course may not be repeated for credit.
Prerequisite(s)
- Engineering 202, 205 or 203 and Applied Mathematics 217.
Sections
| LEC 60 | MWF 10:00 - 11:50
| | Les Jozef Sudak | | |
| LAB 60 | M 13:00 - 15:45
| | | | |
| LAB 61 | W 13:00 - 15:45
| | | | |
| TUT 60 | MW 16:00 - 17:15
| | | | |
This course will be offered next in
Winter 2014.