Relative benefits of different active learning methods to conceptual physics learning

TL;DR

This study compares four active learning methods in introductory physics across multiple institutions, showing SCALE-UP yields the highest conceptual gains and highlighting differences in classroom activities and peer network development.

Contribution

First multi-institutional comparison of four active learning methods in physics, analyzing their relative impacts on conceptual understanding and classroom dynamics.

Findings

All four methods improve conceptual learning significantly.

SCALE-UP outperforms ISLE and Peer Instruction in gains.

Classroom activities differ, with Tutorials and SCALE-UP emphasizing student-centered work.

Abstract

Extensive research has demonstrated that active learning methods are more effective than traditional lecturing at improving student conceptual understanding and reducing failure rates in undergraduate physics courses. Researchers have developed several distinct active learning methods that are now widely implemented in introductory physics; however, the relative benefits of these methods remain unknown. Here we present the first multi-institutional comparison of the impacts of four well-established active learning methods (ISLE, Peer Instruction, Tutorials, and SCALE-UP) on conceptual learning. We also investigate student development of peer networks and the activities that take place during instruction to explain differences in these impacts. Data include student concept inventory scores, peer network surveys, and classroom video recordings from 31 introductory physics and astronomy courses at 28 different institutions in the United States containing a total of 2,855 students. We find measurable increases in student conceptual learning in all four active learning methods (ranging from 2.09-sigma to 6.22-sigma differences from a null effect), and significantly larger conceptual learning gains in SCALE-UP than in both ISLE (2.25-sigma difference) and Peer Instruction (2.54-sigma difference). Conceptual learning gains in Tutorials are not significantly different from those in the other three methods. Despite the hypothesized benefits of student interactions, student development of peer networks is similar across the four methods. Instead, we observe differences in classroom activities; in many of the observed ISLE and Peer Instruction courses, instructors lecture for a large fraction of class time. In Tutorials and SCALE-UP courses, instructors dedicate most in-class time to student-centered activities such as worksheets and laboratory work.