Aerospace Biomedical and Life Support Engineering

Photo of an astronaut in space with the Earth behind.

Astronaut Carlos I. Noriega waves during the second of three STS-97 sessions of extravehicular activity. (Photo courtesy of NASA.)

Instructor(s)

MIT Course Number

16.423J / IDS.337J / HST.515J / (formerly ESD.65J)

As Taught In

Spring 2006

Level

Graduate

Cite This Course

Course Description

Course Features

Course Description

This course introduces students to a quantitative approach to studying the problems of physiological adaptation in altered environments, especially microgravity and partial gravity environments. The course curriculum starts with an Introduction and Selected Topics, which provides background information on the physiological problems associated with human space flight, as well as reviewing terminology and key engineering concepts. Then curriculum modules on Bone Mechanics, Muscle Mechanics, Musculoskeletal Dynamics and Control, and the Cardiovascular System are presented. These modules start out with qualitative and biological information regarding the system and its adaptation, and progresses to a quantitative endpoint in which engineering methods are used to analyze specific problems and countermeasures. Additional course curriculum focuses on interdisciplinary topics, suggestions include extravehicular activity and life support. The final module consists of student term project work.

Other Versions

Related Content

Dava Newman. 16.423J Aerospace Biomedical and Life Support Engineering. Spring 2006. Massachusetts Institute of Technology: MIT OpenCourseWare, https://ocw.mit.edu. License: Creative Commons BY-NC-SA.


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