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Dec 21, 2024
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CE 5200 - Finite Element Methods in Engineering Background theory, formulation, and application to one- and two-dimensional problems and techniques for analysis. Structures, consolidation, and wave propagation.
Requisites: Credit Hours: 3 Repeat/Retake Information: May not be retaken. Lecture/Lab Hours: 3.0 lecture Grades: Eligible Grades: A-F,WP,WF,WN,FN,AU,I Learning Outcomes: - Students will be able to formulate and use interpolation functions.
- Students will be able to formulate stiffness matrix and solve the problem through direct stiffness method.
- Students will be able to perform numerical integrations.
- Students will be able to explain the concept of discretization.
- Students will be able to describe the overall approaches involved in finite element analysis.
- Students will be able to formulate and solve beam bending problems.
- Students will be able to formulate and solve one-dimensional flow problems.
- Students will be able to formulate and solve one-dimensional stress propagation problems.
- Students will be able to formulate and solve one-dimensional stress-strain problems.
- Students will be able to formulate and solve one-dimensional transient problems.
- Students will be able to apply the methods of matrix theory to solve finite element problems.
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