Three Active Learning Strategies to Address Mixed Student Epistemologies and Promote Conceptual Change

Abstract: Novice science learners or introductory science students vary greatly in their understanding of the nature of science. For example, many students do not conceive of scientific knowledge as a highly ordered, coherent, knowledge structure that contains a set of interrelated ideas. Such a framework enables the learner to relate new material to prior knowledge and, if warranted, assimilate the new material within the framework. Many students have strong beliefs that knowledge is conveyed by authorities, such as th… Show more

“…We launched this ebook to consider instructional supports that are necessary for students to examine and develop their own ideas and compare them to the ideas presented by peers, the textbook, and the instructor. This is a follow up to our previous review of three instructional strategies that show promise to address this challenge in the context of an introductory physics classroom (Kalman and Lattery, 2018). More details are also found in Kalman (2017).…”

Editorial: Development of Student Understanding: Focus on Science Education

“…We launched this ebook to consider instructional supports that are necessary for students to examine and develop their own ideas and compare them to the ideas presented by peers, the textbook, and the instructor. This is a follow up to our previous review of three instructional strategies that show promise to address this challenge in the context of an introductory physics classroom (Kalman and Lattery, 2018). More details are also found in Kalman (2017).…”

Editorial: Development of Student Understanding: Focus on Science Education

“…In the "knowledge in pieces" perspective, student knowledge is constructed in real-time and incorporates context features with the p-prims to form the observed conceptual expressions. Although there exists an ongoing debate between these two views (Kalman & Lattery, 2018), it is more productive to focus on their instructional implications for promoting meaningful conceptual change in students' knowledge structures.…”

Physics education research for 21st century learning

French teacher perceptions of student learning about force: a preliminary study