3600. Biomechanics
4.00 credits
Prerequisites: CE 2110; open only to Biomedical Engineering majors; others by instructor consent.
Grading Basis: Graded
Application of solid mechanics theory to describe and analyze mechanical behaviors of biological tissues. Basic concepts in mechanics of materials, including the essential mathematics, kinematics of deformation and motion, stress, constitutive relations. Biomechanics principles; identifying, formulating and solving problems related to bone, cartilage, tendon, cardiac and vascular tissues. Introduction of experimental methods and computational modeling of biological tissues. A separate laboratory component will introduce students to experimental methods in more detail. Laboratory reports with revisions are required.
Last Refreshed: 04-APR-25 05.20.16.778037 AMClass Number |
Campus |
Instruction Mode |
Instructor |
Section |
Schedule |
Location |
Enrollment |
Credits |
Notes |
|
|---|---|---|---|---|---|---|---|---|---|---|
| 1258 9048 1 010L | 9048 | Storrs | In Person | Feng, Bin Gielo-Perczak, Krystyna |
010L | Mo 8:00am‑11:00am |
BRON 215 | 0/3 | 4.00 | |
| 1258 9049 1 012L | 9049 | Storrs | In Person | Feng, Bin Gielo-Perczak, Krystyna |
012L | Mo 2:30pm‑5:30pm |
BRON 215 | 2/5 | 4.00 | |
| 1258 9050 1 013L | 9050 | Storrs | In Person | Feng, Bin Gielo-Perczak, Krystyna |
013L | We 9:05am‑12:05pm |
BRON 215 | 3/5 | 4.00 | |
| 1258 9051 1 014L | 9051 | Storrs | In Person | Feng, Bin Gielo-Perczak, Krystyna |
014L | We 2:30pm‑5:30pm |
BRON 215 | 2/5 | 4.00 | |
| 1258 9052 1 015L | 9052 | Storrs | In Person | Feng, Bin Gielo-Perczak, Krystyna |
015L | Fr 10:10am‑1:10pm |
BRON 215 | 0/3 | 4.00 |