More Like this

1. Fostering expansive and connective sensemaking with preservice secondary science teachers

   https://doi.org/10.1002/tea.21922  

   Watkins, Jessica; De Lucca, Natalie A.; Pao, Serena R. (December 2023, Journal of Research in Science Teaching)

   Abstract Preservice secondary science teachers often experience science learning in narrow and marginalizing ways in their science preparation. These experiences cause harm, particularly for preservice teachers of color. They also limit the disciplinary resources they can develop for later teaching science in ways that value and sustain their students' ways of knowing and being in the world. Our research explores possibilities for cultivating new spaces for preservice secondary science teachers to engage in science. In a content‐focused education course, we designed for and studied preservice teachers' engagement in expansive and connective sensemaking, incorporating heterogeneity, power, and historicity in pursuits of explanatory accounts of the natural world. In this article, we examined how this course design can support preservice teachers to attune to heterogeneity in ways of knowing in science and to connect to identity and historicity in scientific sensemaking. Our analysis suggests that students' final projects reflected attunements to diverse knowing, communicating, and relating in science and deep connections with their identities and future‐making, yet had fewer connections to sociohistorical narratives and structures. We developed illustrative case studies of four student projects, highlighting the personal, social, and political possibilities of creating space for future educators to imagine more expansive and connective forms of science. This study contributes a novel model for preservice science teacher education to support teacher learning to value and sustain their students' ways of knowing and being in the world. 

   more » « less
2. Examining the Role of Mentor Teacher Support in a Professional Learning Experience for Preservice Teachers on Integrating Computational Thinking into Elementary Science Education

   Ketelhut, D. J.; Hestness, E.; Cabrera, L.; Jeong, H.; Plane, J.; & McGinnis, J. R. (April 2019, Society for Information Technology & Teacher Education International Conference)

   Abstract. We investigated preservice teachers’ (PSTs) (N=13) experiences in a science teaching inquiry group professional learning experience on integrating computational thinking (CT) into elementary science. A subgroup of PSTs (n=6) participated alongside their mentor teachers. The others (n=7) participated independently. Our research question was: To what extent, if any, did participating in a professional learning experience on CT along with their mentor teachers appear to enhance PSTs’ learning and practice related to CT integration? We analyzed evaluation feedback, interviews, participant-developed lesson plans, surveys, and attendance data. Findings suggested that participants in both groups reacted positively to the learning experience’s content and approach, and expressed similar perceptions of their CT integration knowledge. PSTs participating with their mentor teachers felt slightly more successful in their CT integration efforts, and perceived CT integration as more feasible in their teaching contexts. However, differences between the groups were minimal. We also noted possible of influence of PSTs’ perceptions of the districts in which they were teaching. Our findings underscore the importance of PSTs’ perceptions of their teaching contexts when bringing a new innovation to the classroom - namely, perceptions of their mentors and curricula as supportive of the innovation. Through this ongoing work, we seek to identify empirically-supported strategies for preparing PSTs to integrate CT into their future classrooms. 

   more » « less
3. Identifying Phenomena for NGSS: Using Preservice Teacher Data to Develop the ASET Phenomenon Tool for Use in Science Methods Courses

   Sinapuelas, Michelle; Xiang, Lin; Ross, Donna L; Vaughn, Meredith; Horvath, Lawrence (August 2025, Journal of Science Teacher Education)

   The adoption and implementation of the Next Generation Science Standards (NGSS) require significant shifts in how K-12 science teachers implement instruction and in the ways that science teacher educators prepare future science teachers. The use of anchoring phenomena to drive instruction is one of these significant shifts. However, identifying phenomena that anchor K-12 student learning and support students in developing conceptual understanding while aligning with the NGSS Performance Expectations can be challenging for teachers, especially for preservice teachers (PSTs). This paper outlines the development and implementation of the ASET Phenomenon Tool (Phenomenon Tool) by a group of science education faculty in a networked improvement community (NIC). The Phenomenon Tool aims to help PSTs identify and evaluate student-centered NGSS phenomena. Based on data collected over five academic years, we have found that more PSTs were able to identify a phenomenon after the NIC faculty implemented the Phenomenon Tool in their science methods courses. In this paper, we also present the PSTs’ alternative concepts about phenomena and their weaknesses in describing phenomena. The strategies and possible activities for the use of the phenomenon tool with teachers are discussed at the end. 

   more » « less
4. “This Began My Journey of Confidence in Teaching Engineering on an Elementary Level!”: Three Cases to Examine the Development of Preservice Teacher Self-Efficacy for Teaching Engineering in the Elementary Classroom.

   Gutierrez, K. S. (January 2023, Journal of science teacher education)

   As a result of the increased inclusion of engineering and computer science standards for K-6 schools nationwide, there is a need to better understand how teacher educators can help develop preservice teachers’ (PSTs’) teaching self-efficacy in these areas. Ed+gineering provides novel opportunities for PSTs to experience teaching and learning engineering and coding content by building COVID-companion robots. Growing evidence supports robotics as a powerful approach to STEM learning for PSTs. In this study, Ed+gineering examined three cases to explore this overarching question: In what ways did PSTs’ virtual robotics project experience develop their self-efficacy for teaching engineering and coding? Three PST cases were examined, within the context of their work with other team members (i.e., undergraduate engineering student(s), 5th graders). To understand each of three PSTs’ virtual robotics project experiences, multiple data sources were collected and analyzed which includes mid- and post-semester CATME, end of course short-answer reflections, follow up interviews (including a modified Big Five personality inventory), and Zoom session recordings. Elementary PSTs Brenda, Erica, and Sarah experienced various levels of commitment and engagement in their five Zoom sessions. These factors, along with other personal and external influences, contributed to Bandura’s four identified sources of self-efficacy. This study examines these contributing factors to create an initial working model of how PSTs develop teaching self-efficacy. In this conference session, science teacher educators will learn more about this model and pedagogical decisions that seemed to influence PST’s self-efficacy for teaching engineering and computer science. 

   more » « less
5. Using technology in representing practice to support preservice teachers’ quality questioning: The roles of noticing in improving practice

   Walkoe, J. and (January 2018, Journal of technology and teacher education)

   Calls for a “practice-based” approach to teacher education have become common in scholarship on teacher education, and preservice-teaching (PST) mathematics programs are increasingly heeding this call. Practice-based teacher education (PBTE) moves beyond standard approaches to teacher education in which PSTs learn about teaching in ways they are then expected to apply in practice and toward an approach that provides PSTs opportunities to gain experience in particular core practices in ways that approximate enactment in the classroom. A growing body of research suggests that teachers’ responses, including the questions they ask, can help students’ develop content knowledge and proficiency in mathematics and science practices in the classroom. However, despite evidence that PSTs can notice students’ thinking in various activities in their preparation programs, it is not clear that they are sufficiently well-prepared to propose quality responses before entering the classroom. In this paper, we describe two different approaches that we have taken to provide support for quality teacher questioning in the LessonSketch environment. From our results, we develop a hypothesis that a pedagogical approach that primes novices to notice model questioning can support a stance of focusing on the substance of students’ thinking and probing rather than guiding students’ thinking in their proposed questions. 

   more » « less