Cellular Biomechanics applies the mechanics toolkit you already know — stresses, deformations, fluid flow — to objects that are alive, treating cells and their internal scaffolding as physical structures whose behavior governs growth, motility, adhesion, and how tissues sense force. You'll review statistical mechanics and polymer physics, work through the cytoskeleton and membranes as mechanical systems, and put it together in a research-style project drawing from current experimental literature. It sits at the interface where mechanical engineering meets cell biology, so prior exposure to solid and fluid mechanics is assumed, and it's a natural entry point for students considering biomedical or soft-matter research.
→ STARS müfredatı (resmi syllabus)
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Course Learning Outcomes: Course Learning Outcome Assessment Reviewing how the main results of Mechanical Engineering can be applied to the study of cells and subcellular components. Quiz Midterm Final Describing different experimental techniques used in the cellular biomechanics research. Quiz Midterm Final Describing main components of cellular structure and their elastic properties. Quiz Midterm Final Describing fundamental mechanical processes in cellular motiliy, division and adhesion. Quiz