Flipping the Large-Enrollment Introductory Physics Classroom
Abstract
Most STEM students experience the introductory physics sequence in large-enrollment (N 100 students) classrooms, led by one lecturer and supported by a few teaching assistants. This work describes methods and principles we used to create an effective "flipped classroom" in large- enrollment introductory physics courses by replacing a majority of traditional lecture time with in-class student-driven activity worksheets. In this work, we compare student learning in courses taught by the authors with the flipped classroom pedagogy versus a more traditional pedagogy. By comparing identical questions on exams, we find significant learning gains for students in the student-centered flipped classroom compared to students in the lecturer-centered traditional classroom. Furthermore, we find that the gender gap typically seen in the introductory physics sequence is significantly reduced in the flipped classroom.
Keywords
Cite
@article{arxiv.1807.03850,
title = {Flipping the Large-Enrollment Introductory Physics Classroom},
author = {Chad T. Kishimoto and Michael G. Anderson and Joe P. Salamon},
journal= {arXiv preprint arXiv:1807.03850},
year = {2018}
}
Comments
12 pages, 3 figures