This activity teaches skills in critical assessment of the peer-reviewed published literature. It focuses on analysis of clinical trials in mental health, but the principles and methods are readily generalizable to other scientific literature. The “Smackdown” approach represents an augmentation of the traditional “journal club” mode of teaching critical scientific reading skills.
This case study, contributed by the Cornell Center for Teaching Excellence, is intended to show that two enantiomers can have different effects on the body, and how the same drug can be used to treat different diseases or symptoms. It is also intended to help students begin to understand the process of FDA approval for drugs. This problem could be used in an organic chemistry class or in a class for non-science majors.... Read more about Thalidomide: The pros and cons
This final lab project, contributed by the Cornell Center for Teaching Excellence, utilizes the techniques learned throughout the semester in the lab as well as the concepts learned in the lecture portion of the class. The project involves a person breaking into a building and leaving the exhumed body of the dead college founder and a threatening note in a classroom. Evidence such as fingerprints, hair, fibers, shoeprints and glass are left at the crime scene.... Read more about Forensics Lab
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.
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
In this simulation activity, students decide which of two companies, each using a different CRISPR genome-editing technology, to invest in. They engage with research on CRISPR genome editing to understand how unintended consequences of one technology used for this editing had real-world business implications. The storytelling element adds immediacy to the activity, making it imaginative and engaging, and students are pushed toward achieving higher levels of competence within Bloom’s taxonomy for the subject area. ... Read more about Simulated Investment in Genome Editing Technology
This activity in introductory game development is intended to offer concrete initial tools for solving some of the course problems, and provide comfortably small groups in which all student voices might be shared. ... Read more about Game Design Activity
Professor Nathan Kaplan uses popular websites and online data to generate discussion about the topic of correlation in his math gen ed, "Fat Chance." According to Kaplan, the purpose of the activity is to show students that correlations are everywhere, even in movie rentals, library cards, etc., and part of the era of big data is that companies will know lots of things about people even if they don't tell them.... Read more about Exploring Correlation Data on Popular Websites
In Animal Cognition, Dr. Irene Pepperberg's students learn how to evaluate scholarly work on animal cognition by trying to think from the animal's point of view of the experiment.... Read more about Evaluating Scholarly Papers