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Direct linkElise M. Walck-Shannon; Heather D. Barton; Shaina F. Rowell; Douglas L. Chalker; Angela Fink – CBE - Life Sciences Education, 2025
Recently, our course team transformed a large-enrollment introductory genetics course from being predominantly lecture based to active learning based. During class sessions, students engaged in problem solving, which occurs when a student attempts to solve a problem without knowing the path to complete it. We designed class activities…
Descriptors: Active Learning, Genetics, Learning Activities, Inquiry
Xinjian Cen; Maci Kight; Rachel Lee; Petra Kranzfelder; Stanley M. Lo; Jeffrey Maloy; Melinda T. Owens – CBE - Life Sciences Education, 2025
Instructors often provide feedback to their class in multiple ways. One way is through their follow-up behaviors, which are the specific strategies instructors implement after active learning activities. These behaviors could play an important role in student learning as students receive feedback from the instructor. However, there is little…
Descriptors: Teacher Behavior, Active Learning, Feedback (Response), Lesson Observation Criteria
Katherine A. Clements; Kyle T. Vallone; Thomas P. Clements; Elizabeth H. Catania; Lily L. Claiborne; Katherine L. Friedman; Todd R. Graham; Heather J. Johnson; Savanna R. Starko; Tara D. Todd; Jessica Watkins; Cynthia J. Brame – CBE - Life Sciences Education, 2025
Students often experience science, technology, engineering, and mathematics (STEM) courses as competitive, weed-out spaces. Learning Assistants (LAs) have potential to improve students' experiences in these courses. Previously, we elucidated themes describing the impact of LAs on students' sense of STEM belonging and science-related confidence in…
Descriptors: STEM Education, Sense of Belonging, Self Esteem, Teaching Assistants
