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1. The associations of social and motivational factors to science and mathematics teacher retention

   Ekmekci, A. and ( April 2022 , Proceedings of 2022 Society for Information Technology & Teacher Education International Conference)

   Teacher turnover in science and mathematics is a significant and consistent challenge for K-12 education in the U.S. This paper provides: (a) an investigation of the relationship between teacher retention and several social and motivational factors; and (b) a comparison of Master Teaching Fellows (MTF) and non-MTF teachers in terms of their retention and social and motivational factors. Teachers are classified into three retention categories: (a) stayers, (b) shifters, and (c) leavers. Social and motivational factors included teaching self-efficacy, diversity dispositions, leadership skills, principal autonomy support, teacher-school fit (adapted from person-organization fit literature), and social networks related to teaching and education. Study 1 included about 250 science and math teachers from the gulf coast region of Texas. Study 2 included 167 science and math teachers across the country. Teachers completed a survey in the summer and fall of 2021. For study 1, multinomial logistics regression analyses indicate: (a) leavers have significantly higher levels of self-efficacy; and (b) shifters have significantly higher levels of leadership skills and lower levels of teacher-school fit. The second study findings indicate: (a) MTFs’ teacher leadership network and teaching self-efficacy are significantly greater than that of non-MTFs’; and (b) MTFs significantly tend to shift to a leadership position than non-MTFs do. 

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2. The associations of social and motivational factors to science and mathematics teacher retention.

   https://doi.org/https://learntechlib.org/pv/220830/  

   Ekmekci, A. ; Aqazade, M. ; Papakonstantinou, A. ; Orcan, B. ; Catanese, J. ; Callard, C. ; Cerosaletti, C. ; Daley, M. ; Rushton, G. ; Reid, J. ; et al ( January 2022 , Proceedings of 2022 Society for Information Technology & Teacher Education International Conference)

   Langran, E. (Ed.)

   Teacher turnover in science and mathematics is a significant and consistent challenge for K-12 education in the U.S. This paper provides: (a) an investigation of the relationship between teacher retention and several social and motivational factors; and (b) a comparison of Master Teaching Fellows (MTF) and non-MTF teachers in terms of their retention and social and motivational factors. Teachers are classified into three retention categories: (a) stayers, (b) shifters, and (c) leavers. Social and motivational factors included teaching self-efficacy, diversity dispositions, leadership skills, principal autonomy support, teacher-school fit (adapted from person-organization fit literature), and social networks related to teaching and education. Study 1 included about 250 science and math teachers from the gulf coast region of Texas. Study 2 included 167 science and math teachers across the country. Teachers completed a survey in the summer and fall of 2021. For study 1, multinomial logistics regression analyses indicate: (a) leavers have significantly higher levels of self-efficacy; and (b) shifters have significantly higher levels of leadership skills and lower levels of teacher-school fit. The second study findings indicate: (a) MTFs’ teacher leadership network and teaching self-efficacy are significantly greater than that of non-MTFs’; and (b) MTFs significantly tend to shift to a leadership position than non-MTFs do. 

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3. Challenges and supports for secondary science and mathematics teacher retention

   https://doi.org/10.1111/ssm.12647  

   Lotter, Christine ; Crooks‐Monastra, Jennifer ; Irdam, Greysi ; Yow, Jan A. ( February 2024 , School Science and Mathematics)

   More research related to effective ways to support and retain teachers in the teaching profession is necessary as the need for science and mathematics teachers continues to grow. Understanding how teachers perceive challenges and experience support early in their career can contribute to building environments which foster teacher retention. This mixed‐method study explored the influences on the self‐efficacy and career satisfaction of a group of 21 early‐career (2–6 years of classroom experience) secondary science and mathematics teachers who participated in a traditional university preparation program and scholarship program to prepare them for teaching in high‐need school districts. Using data from an efficacy survey and semistructured interviews, this study measured changes in teacher efficacy and described teacher leadership experiences, perceived teaching challenges, and valued supports. Results found no change in teachers' self‐efficacy scores although mean outcome expectancy scores decreased. Teachers' identification as a teacher leader was correlated with science or mathematics teaching self‐efficacy. Qualitative coding of the interviews revealed ways in which assessments, workload, school structures and polices, administration, students, and teacher community either contributed to teachers reported difficulties or supported them as early‐career teachers. The discussion offers suggestions for ways to increase secondary science and mathematics teachers' job satisfaction.

    

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4. Profiles of middle school science teachers: Accounting for cognitive and motivational characteristics

   https://doi.org/10.1002/tea.21617  

   Bae, Christine L. ; Hayes, Kathryn N. ; DeBusk‐Lane, Morgan ( December 2019 , Journal of Research in Science Teaching)

   Teachers play a critical role in successfully implementing science education reforms in the United States to provide high‐quality science learning opportunities to all students. However, the differentiated ways in which teachers make decisions about their science teaching are not well understood. This study takes a person‐centered approach by applying latent profile analysis to examine how cognitive (pedagogical content knowledge) and motivational (instructional goal orientations, self‐efficacy beliefs, and reform values) characteristics combine to form science teacher profiles in middle school. Predictors of profile membership (bachelor's degree, school %FRL) and both teacher (science instructional practices) and student (science achievement, engagement, and self‐efficacy) outcomes related to the teacher profiles were also examined. Five science teacher profiles were identified (severely discouraged but reform oriented, discouraged but reform oriented, conventional, confident and mastery oriented, and confident with multiple goal approaches) that represented unique configurations of cognitive and motivation characteristics. Additionally, findings showed that the teacher profiles were significantly related to three dimensions of science instructional practice including communication, discourse, and reasoning. Finally, the teacher profiles were significantly related to student science achievement and motivational outcomes. Implications for differentiated approaches to teacher professional learning and supports for science instruction are discussed.

    

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5. The Value of Teaching Leadership Skills to STEM Graduate Students and Postdocs

   https://doi.org/10.58021/S59G6F  

   Strubbe, Linda ; Bosinger, Mia ; Stauffer, Heidi L ; Tarjan, L. Max ( January 2022 , Institute for Scientist & Engineer Educators (ISEE))

   Seagroves, Scott ; Barnes, Austin ; Metevier, Anne ; Porter, Jason ; Hunter, Lisa (Ed.)

   To create and achieve awesome things in the world together, STEM (science, technology, engineering and mathematics) professionals need to be able to lead effectively. Leadership can be thought of as “a process of social influence through which an individual enlists and mobilizes the aid of others in the attainment of a collective goal” (Chemers, 2001). In the Institute for Scientist & Engineers Educators’ Professional Development Program (PDP), STEM graduate students and postdocs learned, practiced, and reflected on leadership skills and strategies explicitly. Design Team Leaders (DTLs) practiced leading their teams, all participants facilitated inquiry (led their students in learning), and some (in later years) learned through the inclusive leadership PDP strand. In this panel paper, we reflect on what we learned from these experiences and discuss how we apply PDP leadership training daily in our work beyond the PDP. We review key principles about inclusive leadership, such as building an image as a credible leader; how to lead meetings; and how to build feelings of motivation, belonging, trust, and shared ownership among team members. We also share case studies of our experiences applying PDP leadership training in roles as co-director for an African summer school, facilitator for a physics equity project, middle/high school math and science teacher, mentor for new teachers, teaching professor and online curriculum designer, and project manager for a non-profit. Last, we offer recommendations for stakeholders who want to support STEM graduate students’ and postdocs’ development as inclusive leaders. 

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