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Michaelis-Menten Enzyme Kinetics
11 Sep 2018 | Teaching Materials | Contributor(s):
By Tony Weisstein
Truman State University
In this simulation, equations used in enzyme kinetics (Michaelis-Menten, Eadie-Hofstee, Dixon, and Lineweaver-Burk) are modeled under various conditions.
By Tony Weisstein1, John R Jungck2, Doug Green3
1. Truman State University 2. Interdisciplinary Science Learning Center at the University of Delaware 3. Saint Michael's College
These two workbooks model the evolution of phage resistance in a bacterial population under two alternative hypotheses.
By Tony Weisstein1, John R Jungck2
1. Truman State University 2. Interdisciplinary Science Learning Center at the University of Delaware
An Excel worksheet that simulates the molecular evolution of DNA sequences.
By John R Jungck1, Jennifer Spangenberg2, Noppadon Khiripet3, Rawin Viruchpinta3, Jutarat Maneewattanapluk3
1. Interdisciplinary Science Learning Center at the University of Delaware 2. Beloit College 3. National Electronics and Computer Technology Center
3D FractaL-Tree allows scientists to collect data from actual specimens in the field or laboratory, insert these measurements into a spatially explicit L-system package, and then visually compare...
Birthday Problem and Class Phenotypic Probabilities
By John R Jungck1, Jennifer Spangenberg2, Annelise L. Myers2
1. Interdisciplinary Science Learning Center at the University of Delaware 2. Beloit College
An Excel workbook exploring two related applications, the Birthday Problem and Class Phenotypic Probabilities. Students enter their own phenotypes into the workbook.
ABO Blood Group Frequencies
By John R Jungck1, Jennifer A. Spangenberg2
An Excel workbook in which students can calculate blood type frequencies through different approaches (Hardy-Weinberg, quadratic formula, and the EM algorithm). The workbook shows the formulas used...