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. Weekly hours: 3 Lecture hours and 1.5 Practicum/Lab hoursRestriction(s): Restricted to students in Civil, Geological, and Environmental Engineering. Prerequisite(s): GE 123.3 Note: Students with credit for GE 213.3 may not receive credit for this course.
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. Weekly hours: 3 Lecture hours and 1.5 Practicum/Lab hoursRestriction(s): Restricted to students in Civil, Geological, and Environmental Engineering. Prerequisite(s): GE 123.3 Note: Students with credit for GE 213.3 may not receive credit for this course.
