CEE 4725

CEE 4725

Course information provided by the Courses of Study 2022-2023. Courses of Study 2022-2023 is scheduled to publish mid-June.

This course introduces students to the mathematical framework that describes the deformation of solids and structures due to the action of mechanical and thermal loads. The course is intended to provide a foundation for better understanding and utilizing popular and novel engineering analysis tools associated with predicting mechanical behavior, e.g. finite element analysis. Focusing on linear elasticity, yield criteria, and basic fracture mechanics, this course emphasizes the development of a mechanical intuition that will enable students to better solve problems and innovate across a broad range of domains, e.g. civil, aerospace, nuclear, biomedical, and mechanical engineering, as well as the physical, geological, and materials sciences.

When Offered Fall, Summer.

Prerequisites/Corequisites Prerequisite: MATH 2940, ENGRD 2020 and ENGRD 3200.

Comments Offered in summer through the Engineering Cooperative Program.

Outcomes
  • Demonstrate the ability to utilize common constitutive laws to relate stress to mechanical and thermal strains in three dimensions (and vice versa).
  • Demonstrate a fundamental understanding of the mechanical boundary value problem as related to the stress and strain fields that arise in a three dimensional solid.
  • Demonstrate the ability to utilize basic continuum mechanics and computing resources to analyze real-world problems in mechanics.
  • Demonstrate the ability to utilize common yield surfaces (and fracture criteria) to qualitatively assess mechanical response in three dimensions.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture and one discussion. Combined with: CEE 6726

  • 4 Credits Graded

  • 10290 CEE 4725   LEC 001

    • TR
    • Aug 22 - Dec 5, 2022
    • Warner, D

  • Instruction Mode: In Person

  • 10291 CEE 4725   DIS 201

    • T
    • Aug 22 - Dec 5, 2022
    • Warner, D

  • Instruction Mode: In Person