Reinventing Introductory Physics for Life Scientists (IPLS)

16 Oct2014

Speaker: Edward Redish, University of Maryland

Time: October 16, 2014 16:00 - 17:00

Location:

Hennings 201
6224 Agricultural Rd
Vancouver, BC V6T 1Z1
Canada

A two-term class in physics has been a staple of the education of life scientists for many years. At many large universities life-science students have become a dominant element in this course, their numbers surpassing the number of engineers taking physics. In addition, the biology and medical school communities have begun calling for a more sophisticated and biologically oriented curriculum, one stressing the building of generalized scientific competencies and taking a more interdisciplinary perspective. A multi-disciplinary team of scientists centered at the University of Maryland (UMd) has been reinventing the IPLS course as part of the National Experiment in Undergraduate Science Education (NEXUS). Since life science students have an immense diversity of potential careers, we focus on the common elements of biology curricula: molecular and cellular biology together with building general scientific competencies accessible in introductory physics, such as mathematical modeling, reasoning from core principles, and multi-representation translation. The class is positioned as a second-year class with prerequisites that include calculus, chemistry, and biology. This lets us discuss atomic and molecular examples from the first and include lessons with authentic biological value. In addition to building the basic ideas of the Newtonian framework, electric currents, and optics, NEXUS/Physics includes a significant effort on atomic interactions and chemical bonding, random motion and diffusion, thermodynamics (including entropy and free energy), and spectroscopy. These elements are integrated into laboratories as well as into the lecture part of the class. An important aspect of our development is a strong collaboration between the Physics Education Research and Biophysics Research groups at UMd, permitting a combination of cutting-edge biophysics research with front-line pedagogy. While in development, materials are publically available on the web for observation, use, and comment.

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