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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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Applies solid mechanics to analysis of high-technology structures. Structural design considerations. Review of three-dimensional elasticity theory; stress, strain, anisotropic materials, and heating effects. Two-dimensional plane stress and plane strain problems. Torsion theory for arbitrary sections. Bending of unsymmetrical section and mi
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Tag(s):
- aeronautics and astronautics
- solid mechanics
- high-technology structures
- structural design considerations
- three-dimensional elasticity theory
- stress
- strain
- anisotropic materials
- heating effects
- torsion theory
- bending
- shear
- buckling
- stability phenomena
- structural dynamics
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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1.050 is a sophomore-level engineering mechanics course, commonly labelled "Statics and Strength of Materials" or "Solid Mechanics I." This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate pl
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Tag(s):
- civil and environmental engineering
- solid mechanics
- engineering design
- open ended exercises
- matrix analysis of structures
- structural mechanics
- static equilibrium
- force resultants
- support conditions
- determinate planar structures
- beams
- trusses
- frames
- stress
- strain
- shear
- bending
- torsion
- matrix methods
- elastic stability
- design exercises
- interactive exercises
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course provides an introduction to the mechanics of solids with applications to science and engineering. We emphasize the three essential features of all mechanics analyses, namely: (a) the geometry of the motion and/or deformation of the structure, and conditions of geometric fit, (b) the forces on and within structures and assemblage
Author(s):
Tag(s):
- mechanical engineering
- statics
- pressure
- deformation
- deformable solid
- equilibrium
- geometric compatibility
- material behavior
- stress
- strain
- shear
- elasticity
- thermal expansion
- failure modes
- biomechanics
- natural materials
- motion
- structure
- force
- moment
- member
- truss
- friction
- torsion
- bending
- displacement
- beam
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