The University of Texas for Austin
BME 353 Travel Phenomenon In Living Systems
Instructor: Aaron Baker, PhD
BME 5. 202D, 512-232-7114, [email protected] utexas. edu
Office Several hours: TTh being unfaithful: 30 i am вЂ“ twelve: 30 was
Teaching Helper: Peter Voyvodic
BME five. 418, 512-471-6480, [email protected] com
Office Hours: W a couple of: 30 pm вЂ“ 5: 00 evening
Class Period: TTh eight: 00 was вЂ“ on the lookout for: 30 are
Place: NOA 1 . 124
Web page: https://courses.utexas.edu/
Course Information: This course reveals an introduction towards the principles of warmth, mass and momentum transfer and their application to solve complications in living systems.
Requirements: Mathematics through differential equations, freshman biology sequence, 1st year of physics, thermodynamics (physical chemistry).
At the end with this course the scholars should be able to the actual following: вЂў Describe the basic conservation concepts and disposition laws that govern temperature, mass and momentum transportation processes. вЂў Develop the primary engineering expertise that enable effective expertise for handling novel biomedical applications such as the design of systems that user interface with or perhaps analyze living systems. вЂў Develop the primary engineering skills to enable the modeling or perhaps analysis of transport procedures in living organisms.
1 . Fundamentals of Heat and Mass Transfer, 6th Edition, by simply Incropera, DeWitt, Bergman and Lavine. 2 . Fundamentals of Fluid Mechanics, any Model, by Munson, Young and Okiishi.
Other Useful Textbooks:
Biotransport: Principles and Applications, 1st Edition, Robert Roselli and Ken Diller. Transport Phenomena, 2nd Release, Bird, Stewart and Lightfoot. ABET Software Outcomes Achieved:
1 . Apply knowledge of neurological and physical sciences, math, and anatomist to solve complications at the software of anatomist and biology. 2 . Recognize, formulate and solve biomedical engineering conditions that...