![]() ![]() This fur color is decided by their genotypes. Mice in this model can have two fur colors, dark and light. The specifics of the model are designed on the basis of an Advanced Placement (AP) Biology Lab, so that students can computationally investigate the emergence of Hardy-Weinberg equilibrium values in a population that obeys Hardy-Weinberg equilibrium assumptions. The genetics is modeled on the basis of the research on the rock pocket mice populations. This context is developed into a lesson plan by the (). The context for this model is the evolution of fur coat color in rock pocket mice that are mainly found in rocky outcrops in the deserts of the southwestern United States and Mexico. As the populations reproduce, after just a few generations, the population reaches Hardy-Weinberg equilibrium. ![]() Users can set up the initial genetic composition of the mouse population and then can track genotype and phenotype frequencies in the population as the mice reproduce obeying the assumptions underlying Hardy- Weinberg equilibrium. This model allows users to explore the inheritance of fur coat color in a population of rock pocket mice to investigate the Hardy-Weinberg Principle. ![]() You can also Try running it in NetLogo Web If you download the NetLogo application, this model is included. (back to the library) Hardy Weinberg Equilibrium NetLogo Models Library: Hardy Weinberg Equilibriumīeginners Interactive NetLogo Dictionary (BIND) ![]()
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