More Like this

1. The Role of Physics Culture in Shaping In-Service Physics Teacher Identities and Framings of Equity: Two Case Studies

   https://doi.org/10.1119/perc.2021.pr.Mathis  

   Mathis, Clausell; Robertson, Amy D. (January 2021, Physics Education Research Conference Proceedings)

   Bennett, M. B.; Frank, B. W.; Vieyra, R. E. (Ed.)

   Physics is perceived to have a culture of exclusion, which includes not embracing individuals from certain demographics who are underrepresented in the field. Many who are from underrepresented groups have stated they feel impacted by cultural pressures to assimilate to what is traditionally considered a “physics person.” In order to better understand these cultural pressures this study examines statements from two physics teachers who participated in a summer professional development (PD) workshop. Throughout the summer PD, the two teachers made statements that described how physics culture impacted their identity and understanding of equity, which ultimately shaped their approach towards teaching. Analysis of teachers’ statements showed that physics culture impacted the teachers' views on instruction in the areas of inclusivity and shaping students' physics identity. This study has implications for research on the role of physics culture and how it impacts underrepresented students’ and teachers' identity and approach to equity. 

   more » « less
2. Just keep swimming: Increasing resilience of STEM preservice teachers during COVID-19

   Catherine M. Lussier University of California, Riverside Ashley M. (March 2023, Journal of instructional pedagogies)

   A substantial achievement gap between K-12 English learners (ELs) and non-ELs in science, technology, engineering, and mathematics (STEM) content areas exists, as indicated by national assessments of student outcomes. Considering the expected steady increase in students who are ELs in the U.S., determining methods for addressing this achievement gap is of immediate concern. Research has indicated this gap may be exacerbated by lack of adequate teacher preparation, specifically in STEM fields, to effectively teach students who are culturally and linguistically diverse (CLD). Founded in previous research about effective teacher preparation, the current case study pilots and reports on a model of early STEM preservice teacher training that integrates: knowledge of language development for ELs, early experiences with CLD learners, and professional development activities that guide the implementation of STEM pedagogical methods. Five STEM preservice teachers participated in a year-long supplemental training program focused on adapting STEM instruction for ELs. Components of the supplemental program included: (a) coursework extending teacher knowledge of EL language development, (b) fieldwork providing early exposure to research-based teaching experiences with EL students, and (c) professional development guiding the creation of hands-on STEM curriculum for diverse learners. Five secondary preservice teachers experienced increases in self-efficacy, growth in STEM instructional practices, and greater motivation for teaching in high-need schools. Results will inform educational models for improving STEM-EL teaching, thereby addressing a crucial need to serve the growing national population of underserved students. 

   more » « less
3. Teaching Materials Science and Engineering (MSE) in the Pre-College Classroom as a Vehicle for NGSS Implementation

   https://doi.org/10.1557/adv.2017.102  

   Granucci, Nicole; Jenkins, Carol; Bauer, Melanie; Gard, Ashley L.; Pinkerton, Bryn; Broadbridge, Christine (January 2017, MRS Advances)

   ABSTRACT Adoption of Materials Science and Engineering (MSE) into the pre-college classroom is an ideal strategy for addressing Next Generation Science Standards (NGSS), specifically the Science and Engineering Practices. MSE offers core science and engineering topics that can be incorporated into existing Science, Technology, Engineering, and Mathematic (STEM) curricula through teaching modules. Using MSE as a teaching vehicle, the Center for Research on Interface Structures and Phenomena (CRISP) conducted a series of small-scale studies of its teacher professional development workshops and a student summer program, along with related teaching modules, in an effort to measure the contribution MSE has on students and K-12 STEM educators. Based on participant survey feedback, CRISP found improvement in students’ MSE knowledge, interests, and career goals. For teachers, in addition to improving their MSE knowledge, they also increased their comfort and confidence in teaching MSE concepts in their classroom. These results provide evidence for the use of MSE modules as productive teaching tools for NGSS Science and Engineering Practices, as well as producing workforce-competitive STEM students. 

   more » « less
4. Culturally Sustaining STEM Learning in the Gullah Community

   Ciphrah, Regina; Boyd, Fenice; Ellis, Jamelle (January 2022, National Science Foundation (NSF) STEM for All Video Showcase)

   Culture plays a significant role in students’ learning and understanding. Teaching and learning are most effective when teachers make curricula relevant to students’ cultural, linguistic and experiential backgrounds, and when they take time to know and understand their students and the community they serve. The Culturally Sustaining STEM (CS-STEM) Institute is a feasibility study designed to support professional learning of in-service and preservice teachers in community-based settings. Funded by NSF AISL and ITEST programs, the study is comprised of three goals: supporting preservice and in-service teachers’ practices of culturally-sustaining STEM pedagogy, enhancing pre-adolescent learners’ knowledge of historical and current STEM practices in Gullah Geechee culture, inviting dialogue that critique and challenge perceptions of who participates in STEM agency and how through a Community-based Participatory Research (CBPR) model. A primary component of the study was a pilot summer 2021 STEM camp for fifth and sixth grade students in Georgetown, SC, located within the geographical footprint of the Gullah Geechee Cultural Heritage Corridor. The multi-PI team utilizes constant comparative analytic methods to analyze transcripts from observations and interviews, as well as the educators’ products to measure how the educators understand and apply culturally sustaining pedagogies (e.g., lesson plans). They also measure how the youth convey their understandings of culturally-embedded scientific content and practices by using constant comparative and multimodal analysis of transcripts from interviews and observations, as well as youth-generated artifacts. This research addresses why CS-STEM is important, development and enactment of CS-STEM curriculum, and how CS-STEM increases STEM literacy. 

   more » « less
5. Investigating mathematics graduate students' growth as teachers: The unique case of Emma

   Beisiegel, M. (October 2019, Proceedings of the forty-first annual meeting of the North American Chapter of the International Group for the Psychology of Mathematics Education)

   Otten, S. (Ed.)

   The need for research-based professional development programs for mathematics graduate students is significant, yet few studies have investigated their development as teachers. This study aims to fill this gap in the research by studying mathematics graduate students’ experiences with teaching as they progress through their graduate programs. Participants responded to surveys and were interviewed semi-annually for two or more years. We analyzed their responses using thematic analysis and a framework that captured their development as teachers. In this report, we describe the developmental stages for teaching and context and methods of the study. We present general findings on the experiences that mathematics graduate students did not move past a certain developmental stage and we present specific findings about one mathematics graduate student who experienced significant growth in her teaching. 

   more » « less