Basic Information
Equilibrium, Kinematics, Anisotropic Elasticity, Boundary Conditions, Planar Problems in Cartesian and Polar Coordinates, Concentrated Forces, Eigenfunctions, Contact Problems, Thermoelasticity, 3d Elasticity, Superposition, Reciprocal and Uniqueness Theorems, General Solutions, Energy Laws and Application in Thermoelasticity. Thermal Stresses in Beams and Plates, Elastodynamics and Wave Propagation.
Faculty: Aerospace Engineering
|Undergraduate Studies
|Graduate Studies
Pre-required courses
84515 - Introduction to Theory of Elasticity
Course with no extra credit
36069 - Thermoelasticity 38749
Semestrial Information
Weekly Hours
3 Academic Credit • 3 Lecture Hours
Responsible(s)
David Durban
Registration Groups
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Weekly Hours
3 Academic Credit • 3 Lecture Hours
Responsible(s)
David Durban
Registration Groups
|
|
Weekly Hours
3 Academic Credit • 3 Lecture Hours
Responsible(s)
David Durban
Registration Groups
|
|