%0 Article %J The Biophysicist %T Instructional Design for an Undergraduate Laboratory Course in Molecular Biophysics %A , %C 44 S. Circle Dr., Science West %N 3 %P 41-54 %V 2 %1 10.35459/tbp.2020.000173 %K calorimetry; kinetics; structure; instructional design; undergraduate laboratory; problem-based learning %X In this article, an approach to teaching molecular biophysics is described. The organization and course content has been carefully chosen and curated so that fundamental ideas in molecular biophysics can be taught effectively to upper classmen in higher education. Three general topic areas are introduced along with accompanying experiments that illustrate major principles related to each topic area. This article outlines an approach to organizing chosen course material and suggests multiple teaching activities within each major topic area: thermodynamics, kinetics, and structural biology. Subtopics are presented along with suggested laboratory experiments. The experiments are outlined in a way that they can be readily adopted by educators teaching a biophysical chemistry lab. The accompaniment of workshop exercises as an additional teaching modality is a component of the course intended to enhance the development of important problem-solving skills and comprehension of new content. Finally, a reflection on student feedback and course outcomes along with targeted learning goals is discussed.