Course title
連続体力学   [Continuum Mechanics]
Course category technology speciality courses  Requirement   Credit 2 
Department   Year 24  Semester 3rd 
Course type 3rd  Course code 022568
Instructor(s)
亀田 正治, 花﨑 逸雄   [KAMEDA Masaharu, HANASAKI Itsuo]
Facility affiliation Faculty of Engineering Office afjgxte/L1151  Email address

Course description
Google classroom Code: pxlaaul

Materials, such as solids and fluids (liquids and gases) have a finite volume and are deformable. In continuum mechanics, such a deformation is modeled under the assumption of a continuum where the matter in the body is continuously distributed and fills the entire region of space it occupies. On the basis of the universal formulation of continuum mechanics, the dynamics specific to solids and fluids are modeled.
Expected Learning
Understand how to describe motion, deformation and forces in a continuum;
Understand how to derive equations of motion and conservation laws for a continuum;
Understand constitutive models for fluids and solids;
Be able to solve simple boundary value problems for fluids and solids;
Be familiar with applied mathmathics related to continuum mechanics, e.g. vector and tensor manipulations in Cartesian and curvilinear coordinate systems, partial differential equations, and complex analysis.
Course schedule
Week 1: Introduction What is a continuum ?:
Week 2: Motion and deformation of continuum
Week 3: Tensors
Week 4: Elasticity
Week 5: Viscosity
Week 6: Governing equations for solids: Derivation of constitutive equations for linear isotropic elastic bodies
Week 7: Problems on solid mechanics (1)
Week 8: Problems on solid mechanics (2)
Week 9: Problems on solid mechanics (3)
Week 10: Mid-term examination and commentary for the contents of the weeks 1,3,4,6,7,8 and 9
Week 11: Governing equations for fluids: Conservation laws and Navier-Stokes equation for a Newtonian fluid
Week 12: Problems on fluid mechanics (1)
Week 13: Problems on fluid mechanics (2)
Week 14: Problems on fluid mechanics (3)
Week 15: End-term examination and commentary for the contents of the week 1,2,5,11,12,13,and 14
Prerequisites
None
Required Text(s) and Materials
O. Sano, Continuum Mechanics (2000), Shokabo, Tokyo.
References
Assessment/Grading
Mid-term examination (50%), end-term examination (50%)
Message from instructor(s)
Course keywords
Office hours
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
9/10/2021 4:37:42 PM