Quantitative Physiology: Cells and Tissues

 Microfluidic, laminar flow chamber.

Microfluidic, laminar flow chamber (lower right). Fluids flow from the top two reservoirs, combine, and mix by diffusion as they flow along the center channel. The upper left image is a magnified view showing diffusion where the two fluids meet. (Image courtesy of Carlos Dorta-Quinones and Noel Reyes-Gonzalez. Used with permission.)

Instructor(s)

MIT Course Number

6.021J / 2.791J / 2.794J / 6.521J / 20.370J / 20.470J / HST.541J

As Taught In

Fall 2004

Level

Undergraduate

Cite This Course

Course Description

Course Features

Course Description

In this subject, we consider two basic topics in cellular biophysics, posed here as questions:

  1. Which molecules are transported across cellular membranes, and what are the mechanisms of transport? How do cells maintain their compositions, volume, and membrane potential?
  2. How are potentials generated across the membranes of cells? What do these potentials do?

Although the questions posed are fundamentally biological questions, the methods for answering these questions are inherently multidisciplinary. As we will see throughout the course, the role of mathematical models is to express concepts precisely enough that precise conclusions can be drawn. In connection with all the topics covered, we will consider both theory and experiment. For the student, the educational value of examining the interplay between theory and experiment transcends the value of the specific knowledge gained in the subject matter.

This course is jointly offered through four departments, available to both undergraduates and graduates.

Other Versions

Related Content

Dennis Freeman. 6.021J Quantitative Physiology: Cells and Tissues. Fall 2004. Massachusetts Institute of Technology: MIT OpenCourseWare, https://ocw.mit.edu. License: Creative Commons BY-NC-SA.


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