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.
This activity was made by John Huth for his Primitive Navigation class, so his students will have practical experience working with primitive navigation tools through this experiment. This activity will help students understand navigational stars.
The primitive navigation final project will involve researching a topic that requires data gathering and analysis, along with research into the history associated with that topic. The final presentation will take the form of a video that will be posted online.
Students prepared for this assignment by reading the week’s reading assignment about the Chinese philosopher Xunzi in the class textbook. The instructor acted as Oprah Winfrey, introducing a new Life Class entitled, “How to Become a Sage.” She introduced the four guest Life Coaches—four of the Chinese philosophers discussed in class: Confucius, Xunzi, Zhuangzi, and Mencius.
Benjamin Weber created an activity that spans across the entire class to help students understand the concept of “diaspora” through constant reiteration of concepts from some excerpts given to the class by the instructor. Students learned how to close-read excerpts, write reflections, and create their own ideas about the theme of the class.
Kellie Carter Jackson, a Harvard College Fellow, created the game “Name Five” for her AAAS118 class. In the beginning of the class, she goes around the room and asks students to list five notable people of different ethnicities to help students understand the world and the power dynamics within it.
Students were asked to produce a multimedia and historical analysis of the archives of Saudi Aramco World. It aimed to bring historical and secondary sources alive by putting students directly in contact with primary, archival sources and asking them to critically engage with those materials.
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
Created by Paul Ogg, Melissa Krebs, Vida Melvin, Amanda Charlesworth, and Melanie Badtke, this lesson teaches how cells regulate cell division using some lecture interspersed with interactive activities including clicker questions, pair/share, and class discussion, applying concepts to Angelina Jolie's BRCA1 mutation.
This lesson, created by Graciela Unguez, Erika Abel, Vanessa Castleberry, Rizalia Klausmeyer, Aaron Snead, Martina Rosenberg, William S. Garver, and Marcy Osgood for the National Academies Summer Institute for Undergraduate Education in Biology uses clickers, pair and share, and other exercises to help students "understand the effect of environmental pH on the ionization status of weak acids and weak bases." Read more about Shakespeare on Acid: To ionize or not to ionize?
Created by Moriah Beck, Masih Shokrani, Karen Koster, William Soto, David McDonald, and David Swanson for the National Academies Northstar Institute for Undergraduate Teaching in Biology, this activity spans 2-3 classes and uses lecture, clicker questions, jigsaws, and group discussions to teach the relationship between protein structure and function. Read more about Protein Function Follows Form: Two-Lesson Activity
Created by Laura Conner, Susan Hester, Anne-Marie Hoskinson, Mary Beth Leigh, Andy Martin ,and Tom Powershis, and contributed by Yale University's Center for Scientific Teaching, this case study lesson reinforces the concept of coevolution and gives students practice with the analysis and interpretation of data.
Students used a platform called Open Review (www.openrev.org), developed by the members of the Harvard physics department, which is a PDF annotation tool that is tailored to discuss scientific publications openly. Every week, students read two publications related to research in the Harvard Physics Department and used Open Review to discuss them online and learn about the academic research. Read more about Open Review Discussion