Modeling Active Engagement Pedagogy through Classroom Response Systems in a Physics Teacher Education Course
DOI:
https://doi.org/10.31129/lumat.v1i5.1088Abstract
One of the most commonly explored technologies in Science, Technology, Engineering, and Mathematics (STEM) education is Classroom Response Systems (clickers). Clickers help instructors generate in-class discussion by soliciting student responses to multiple-choice conceptual questions and sharing the distribution of these responses with the class. The potential benefits of clicker-enhanced pedagogy include: increased student engagement, reduced anxiety, continuous formative assessment, and enhanced conceptual understanding. Most studies, however, investigate the effects of clicker-enhanced instruction in large undergraduate STEM courses. The impact of this pedagogy on learning in small secondary or post-secondary classrooms is still relatively unexplored. The context of this study is a secondary physics methods course in a Teacher Education Program at a large Canadian university. One of the course assignments required future teachers to develop multiple-choice conceptual questions relevant to the secondary physics curriculum. This study investigates the impact of modeling clicker-enhanced active engagement pedagogy on future teachers’ Content Knowledge, Pedagogical Knowledge, and Pedagogical Content Knowledge, as revealed by this assignment. The results of the study indicate that: (1) modeling clicker-enhanced pedagogy in a physics methods course increases future teachers’ interest in active learning; (2) clicker-enhanced pedagogy is a powerful vehicle for developing Pedagogical Content Knowledge of future physics teachers; (3) clicker-enhanced pedagogy is a useful tool for teacher educators for identifying and addressing the gaps in the Content Knowledge of future teachers. This study sheds light on developing future teachers’ capacities to design and implement instruction that is driven by conceptual questions in the presence or absence of technology and the impact of this process on their Pedagogical Content Knowledge and attitudes about conceptual STEM learning.