Introduction/Background: In Jacob Barandes' Physics 302, students are driven to learn how to teach and communicate physics by giving small, mini-lessons throughout the semester. They are then driven to perform a longer lesson as a final project to show what they have learned during the term.
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 was a semester long project. Throughout the semester, graduate students (many of whom had little previous exposure to the course material) studied the history of Chinese music theory, the Jesuit missionaries who transmitted it back to western Europe, and the reception of Chinese culture there in the 18th century. The website commemorating the exhibit and giving more information can be found at hcs.harvard.edu/soundingchina
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.
This is an activity for Lioudmila Zaitseva's Elementary Russian class. She goes through a floor plan illustration on the board and calls on volunteers to label the parts, then place a corresponding image in the specific zone of the plan. This is a fun way for students to remember their vocabulary, basic verbs, and basically conduct a general review.
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.
Overview: This activity helps students read texts, analyze them, and present the information into a diagram.
Goals: Enable students to closely and quickly analyze texts.
Introduction/Background: Students were given texts to read in class. Each of the texts was of a kind that can be represented straightforwardly as a diagram: geography (map), a series of events (cyclical calendar), or a description of the body in relation to the cosmos (a star...
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.
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.