In this single-class activity, students receive a lab handout with background information about the dissections for the day, which include bolded terms/anatomical features that they are expected to know for a following practical exam in that topic.... Read more about Peer Learning for Dissection
In this activity students work together in groups or as individuals on computers to understand how we can use photometric observations of stars to discover exoplanets.... Read more about Kepler Lightcurve Data
Students embarked on this lab-based activity to help understand the species of Costa Rica. Graduate Student Teaching Fellow Alexis Harrison created this activity for her OEB 167 class to allow students to see and interact with preserved specimens from the Museum of Comparative Zoology, so they can further understand the types of animals they will see on their spring break trip to Costa Rica.... Read more about Costa Rican Specimen Scavenger Hunt
Elizabeth Petrik, a graduate teaching fellow for Physics 15c, created this Mathematica activity to help students build physical and quantitative intuition about wave dispersion. The usage of Mathematica in this activity allows for students to not only solidify the concepts they learned in class, but also create a working program that helps them understand wave dispersion in another medium.
In this assignment students will be required to investigate properties of habitable zones throughout a galaxy. Using their knowledge, they will uncover how planets relate to their central star.... Read more about Habitable Zones Near and Far
In her Expos section, Jerusha Achterberg teaches how to clearly describe the methods that will be used in a subsequent paper. This activity was motivated by the fact that students were having trouble writing the methods section in their final paper proposals.... Read more about Writing the Methods Section
Created by Khoa Nguyen, Michal Brylinski, Benjamin Maas, Kristy Stensaas, Suniti Karunatillake, Achim Herrmann, and Wolfgang Kramer, this teachable unit aims to implicitly enable scientific modeling skills among the students. With developing a conceptual model from a set of observations as the underlying goal, variations in atmospheric oxygen content provides context.
Created by Ned Dochtermann, Erin Gillam, Timothy Greives, Kristina Holder, Steve Travers, and Jennifer Weghorst, this lesson focuses on the evolutionary mechanism of random genetic drift. Students explore how population size affects allele frequencies by engaging in a group activity that involves generating and plotting data, interpreting graphs, and formulating hypotheses.... Read more about Understanding the mechanisms of evolution: random genetic drift