Individual Fellow Initiatives
Teaching Engineering through Murder Mysteries and Personalized AI Tutor
Cohort: 2023
Fellow: Krishna Kumar
CE 357: Introduction to Geotechnical Engineering is a third year required undergraduate course that has traditionally been a challenging course for students due to its abstract nature. The average course rating for CE 357 is 3.8 in the last twenty years. I have successfully transformed the lecture modules to achieve a significant increase in interest and students’ performance in the course. Although preliminary work looks promising, I want to scientifically evaluate the effectiveness of the course and publish the findings.
Collaborative Effort–Teaching General Physics
Cohort: 2017
Fellow: Christina Markert
I have been teaching general physics for non-Physics majors since 2008. I have implemented interactive learning elements into my lecture and “real life” questions, which allows the students to have short (3-4 minutes) discussion in small groups to find solutions for the given questions. I have seen improvement in student engagement and finally in test scores, especially within the semester as the students embrace this style of teaching. However, in order to really affect improvement, I communicate with other physics faculty to reflect on the evaluation of successful teaching.
Measuring the Effectiveness of Active Learning Methods in Cell Biology
Cohort: 2016
Fellow: Arturo De Lozanne
Despite ample evidence that implementing active learning methods in the classroom leads to better outcomes, most courses in Biology continue the use of traditional lecturing. Anecdotal conversations with many of my colleagues who teach upper division biology courses indicate a widespread perception that the traditional lecture is the most effective way to transmit information to students.
Transforming a Class Without Backflipping and Handstands
Cohort: 2016
Fellow: Zhengrong Cui
This PTF project was designed to transform a basic science course from lecturing to active learning in a semi-flipped classroom model and to develop a “toolbox” to help facilitate similar transformations across campus. The flipped classroom model has proven effective in motivating and engaging students and improving their retention of materials learned. However, there were two common myths about applying flipped classroom models in large classes (e.g.
Peer Learning Assistant Program Guidelines and Curricula
Cohort: 2015
Fellow: Cynthia LaBrake
The Peer Learning Assistant Program within the Department of Chemistry is a program developed with resources from the Provost Teaching Fellows program to enhance the educational experience of students taking general chemistry by training and employing Peer Learning Assistants (PLAs) to service large blended general chemistry courses. The large (300 –500 students) blended courses have replaced the straight lecture model with active, student centered, learning. Active learning requires coaching and in a large class it is impossible to implement with only one instructor and one tea