Mechanics of Materials (GE 213.0)

Recent/Current Offerings

Syllabus / Public content Section Term Instructor
GE 213 02A January 2018 Lisa Feldman
GE 213 02B January 2018 Lisa Feldman
GE 213 L02 January 2018 Lisa Feldman
GE 213 L03 January 2018 Lisa Feldman
GE 213 L04 January 2018 Lisa Feldman
GE 213 L05 January 2018 Lisa Feldman
GE 213 L07 January 2018 Lisa Feldman
GE 213 P01 January 2018 Lisa Feldman
GE 213 P02 January 2018 Lisa Feldman
 
GE 213 01A September 2017 Allan Dolovich
GE 213 01B September 2017 Allan Dolovich
GE 213 L01 September 2017 Allan Dolovich
GE 213 L02 September 2017 Allan Dolovich
GE 213 L03 September 2017 Allan Dolovich
GE 213 L04 September 2017 Allan Dolovich
GE 213 L05 September 2017 Allan Dolovich
GE 213 L06 September 2017 Allan Dolovich
GE 213 L07 September 2017 Allan Dolovich
GE 213 L08 September 2017 Allan Dolovich
GE 213 L09 September 2017 Allan Dolovich
GE 213 L10 September 2017 Allan Dolovich
GE 213 P01 September 2017 Allan Dolovich
GE 213 P02 September 2017 Allan Dolovich
 
GE 213 02A January 2017 Lisa Feldman
GE 213 02B January 2017 Lisa Feldman
GE 213 L01 January 2017 Lisa Feldman
GE 213 L02 January 2017 Lisa Feldman
GE 213 L03 January 2017 Lisa Feldman
GE 213 L04 January 2017 Lisa Feldman
GE 213 L05 January 2017 Lisa Feldman
GE 213 L06 January 2017 Lisa Feldman
GE 213 L07 January 2017 Lisa Feldman
GE 213 P01 January 2017 Lisa Feldman
GE 213 P02 January 2017 Lisa Feldman
 
GE 213 01A September 2016 Allan Dolovich
GE 213 01B September 2016 Allan Dolovich
GE 213 L01 September 2016 Allan Dolovich
GE 213 L02 September 2016 Allan Dolovich
GE 213 L03 September 2016 Allan Dolovich
GE 213 L04 September 2016 Allan Dolovich
GE 213 L05 September 2016 Allan Dolovich
GE 213 L06 September 2016 Allan Dolovich
GE 213 L07 September 2016 Allan Dolovich
GE 213 L08 September 2016 Allan Dolovich
GE 213 L09 September 2016 Allan Dolovich
GE 213 L10 September 2016 Allan Dolovich
GE 213 P01 September 2016 Allan Dolovich
GE 213 P02 September 2016 Allan Dolovich
 
GE 213 02A January 2016
GE 213 02B January 2016
GE 213 P01 January 2016
GE 213 P02 January 2016

Description

Building upon the concepts introduced in the courses in statics and dynamics and the properties of engineering materials, this course extends equilibrium analysis to deformable bodies. Emphasis is placed on understanding and applying the three fundamental concepts of solid mechanics - equilibrium, constitutive relationships, and geometry of deformation (compatibility). The fundamentals are introduced and reinforced in the context of specific behaviors, including axial tension and compression, pure bending, bending in combination with shear, and torsion of circular shafts. Transformation of stress in two dimensions is introduced.

Prerequisite(s)

GE 125 (taken).

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