Abstract
BackgroundWith the increased attention on the need to retain students within STEM majors, it is important for STEM instructors to adopt evidence-based instructional practices that are student-centric and employ active learning techniques. However, traditional approaches for increasing student-centric, active learning practices such as workshops, seminars, and department or college mandates have been either inefficient or ineffective at motivating institutional change. This is particularly true for introductory STEM courses with large enrollments. One promising approach is to develop and support instructors in forming communities of practice around reforming introductory and foundational STEM courses. By engaging instructors within these communities of practice, and connecting the communities with each other, instructors may be more likely to experience an epistemological shift that will lead to adoption of active learning practices.To explore whether participating in a community of practice is related to the use of student-centered, active learning techniques, 25 undergraduate foundational STEM courses whose instructors were members of a community of practice were observed using the Classroom Observation Protocol for Undergraduate STEM Courses. The results were compared to a sample of 35 undergraduate foundational STEM courses whose instructors were not members of a community of practice.ResultsInstructors who were members of a community of practice were much more likely to employ student-centric practices, such as asking questions, following up, and engaging in discussion, and much less likely to use instructor-centered practices, such as lecturing. In addition, students in these classes were more likely to be actively engaged in problem-solving activities rather than passively listening. We found that student-centric, active learning practices correlated with students attending and actively participating in class, an effect that is stronger for courses taught by instructors who were members of a community of practice.ConclusionCommunities of practice are a potentially effective mechanism for enhancing student learning and retention by increasing the use of active learning practices by STEM instructors. These communities are particularly effective when they consist of small, disciplinary teams working on the same course(s) and are linked with other individuals or groups that use evidence-based instructional practices.
Highlights
There is a prevalent need to reform science, technology, engineering, and mathematics (STEM) lecture sections (Austin 2011; Handelsman et al 2004; Singer et al 2012)
Evaluating communities of practice As the lecture section is standard practice for the large STEM courses affiliated with Strategic Instructional Innovations Program (SIIP) and Widening Implementation and Demonstration of Evidence-based Reform (WIDER), we examined the characteristics of the lecture section to determine if instructors involved with CoPs adopted active learning techniques
Fifteen of the 35 lectures led by instructors who were not part of a COP had zero instances of students doing any individual Classroom Observation Protocol for Undergraduate STEM (COPUS) code associated with working, while only 1 of the 25 lectures led by a COP instructor exhibited this pattern
Summary
There is a prevalent need to reform science, technology, engineering, and mathematics (STEM) lecture sections (Austin 2011; Handelsman et al 2004; Singer et al 2012). In addition to a lack of training and time (Brownell and Tanner 2012), the lack of adoption of active learning techniques is often the result of instructors associating their teaching method with an implicit world-view—a set of beliefs about how learning occurs From this perspective, change requires instructors to learn and apply new technical skills, and to adopt a new belief system— the belief that instruction utilizing active learning techniques is more beneficial for student learning than traditional instruction utilizing passive learning techniques, such as lecturing. Traditional approaches for increasing student-centric, active learning practices such as workshops, seminars, and department or college mandates have been either inefficient or ineffective at motivating institutional change This is true for introductory STEM courses with large enrollments. Student-centric and active learning approaches have been shown to improve learning gains for students (Freeman et al 2014) and have been shown to lead to higher retention of STEM students relative to traditional approaches (Henderson et al 2011)
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