For the STAT104 first class of the semester, Lecturer Michael Parzen throws an inflatable globe of the world into the class audience to get the class excited about learning future topics of experimentation, randomness, and estimation.
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
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 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 Jillian Banks, Jeremy Brown, Cindy Gordon, Chris Gregg, Travis Marsico, Chris Osovitz, and Rebecca Symula, this activity focuses on the importance of temporal scale and specifically seeks to resolve the common student misconception that evolutionary change is only observable on a single timescale. It utilizes index cards in an interactive jigsaw.... Read more about The Problem of Scale in Evolution
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 Kostia Bergman, Erin Cram, Wendy Smith, Scott Dobrin, Presque Isle, and Judith Roe, this lesson for an intermediate Cell Biology course encourages students to take a big-picture view of the cell by comparing cells to buildings in order to think about the dynamic processes within cells. The lesson utilizes a jigsaw and quick write.... Read more about Cells vs. Buildings
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.
Pia Sörensen details how the Science of Cooking class conducts lab assignments through actual cooking experiences. For this example, she navigates through the Molten Chocolate Cake Lab/Heat Lab, but also attached three other examples for more resources. This experiment is supposed to help students understand the concepts of science and cooking in a practical setting by actually cooking or baking with the scientific tools and knowledge acquired through class.
Pia Sörensen detailed out this month-long procedure for Science and Cooking students' final projects, which involve a report and a presentation on a food science related topic of a student groups' choice.
John Huth developed this activity for his SPU 26: Primitive Navigation class. The purpose of this assignment is to establish a baseline for their navigational skills. Students navigate Harvard campus to hold a course and estimate a traveled distance to see how successful they will be without any special training.
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.
This is an in-section activity created by John Huth for his Primitive Navigation course where students walk small distances and use their analysis to learn small angle approximation, statistics, and prepares them for future assignments.
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.
With the knowledge of the motion of the sun, the ability to find solar declination online, and how time can be used to find longitude from previous lectures in class, students must make a device to measure the altitude of the sun using a straw, protractor, and string weighted down to make horizontal.
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 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