More Like this

1. Impact of a mathematics early teaching experience for undergraduates: A teacher preparation recruitment strategy

   https://doi.org/10.29333/iejme/13860  

   de la Cruz, Jessica A.; Goldman, Samantha E. (November 2023, International Electronic Journal of Mathematics Education)

   Declining enrollments in teacher preparation programs across the United States signal a critical need for institutions of higher education to consider innovative recruitment initiatives. This pilot study investigates a novel approach to recruiting undergraduates into a teacher preparation program. Nine participants, mostly first-year college students, engaged in a year-long experiential learning program. The program provided participants with an early teaching experience in a classroom-like setting by engaging them in the collaborative development, planning, and teaching of mathematics in a summer camp for high school students. Data were collected throughout the year on their: planned major, attitudes towards mathematics and mathematics education, mathematics teaching self-efficacy, and perceptions of the program. Results showed the program was successful at improving attitudes, increasing self-efficacy, and stimulating reflection on a potential career as a mathematics teacher. Participants also shared positive impressions of the experience. Implications for research and future practice are discussed. 

   more » « less
2. Finding their voice: Support mechanisms to engage and empower future mathematics teachers.

   Gomez Johnson, K. (July 2019, Proceedings of the Eighth Annual Mathematics Teacher Education Partnership Conference)

   Smith, W. M. (Ed.)

   The NebraskaMATH Omaha Noyce Partnership Scholarship awards scholarships funded by the National Science Foundation (NSF) to undergraduate students interested in mathematics education at the University of Nebraska at Omaha (UNO). Scholars, who are dual mathematics and secondary education majors, are engaged and supported by Noyce faculty to not only excel in their college coursework and career preparation, but also to serve the university and community through teaching assistantships and STEM community outreach. The main goal of this program is to strengthen and expand the pipeline for preparing high-quality teachers of mathematics to better meet the responsibilities and demands of local school districts, particularly those serving students with high-need. Cross-campus collaborations between the departments of teacher education and mathematics co-constructed the Noyce infrastructure to emphasize and share the development of future, high-quality secondary mathematics teachers (Mathematics Teacher Education Partnership, 2014). This paper describes our program’s unique design and implementation features aimed to empower, engage, and extend the talents of our undergraduate students. We share lessons learned and recommendations from faculty and participants regarding decisions and facets of the program considered to be most influential in STEM teacher and leadership development. 

   more » « less
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)

   Abstract 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. 

   more » « less
4. Developing pre-service elementary teacher’s computational thinking knowledge through coding and mathematics pedagogy

   Gleasman, Cory; Kim, ChanMin (January 2020, Research highlights in technology and teacher education 2020)

   Gibson, D. C.; Ochoa, M. N.; Christensen, R.; Cohen, J.; Crawford, D.; Graziano, K.; Langran, E.; Langub, L.; Rutledge, D.; Voogt, J. (Ed.)

   As computer science education standards are disseminated to K-12 school districts nationally, teacher education programs are left with the challenge of ensuring pre-service teachers are prepared to enter their first classroom with the skills and knowledge necessary to align instruction with the new standards. This paper examines the use of a learning intervention called “Block-Based Coding and Computational Thinking for Conceptual Mathematics” (B2C3Math) that aimed to help pre-service teachers majoring in early childhood and elementary education learn and apply computational thinking concepts to their elementary mathematics teaching. Ten pre-service teachers all at the same stage in their teacher preparation program participated in this convergent mixed-methods study. A focus of the research was placed on how participant’s computational thinking knowledge changed following the implementation of B2C3Math. Findings suggest that there were changes in the participants’ views of computational thinking application to elementary mathematics teaching following the implementation of B2C3Math. Implications for research and instructional practices using B2C3Math for teacher education are discussed. 

   more » « less
5. Strategies for Developing, Expanding, and Strengthening Community College Engineering Transfer Programs

   Enriquez, A.; Langhoff, N.; Dunmire, E.; Rebold, T; Pong, W. (June 2018, American Society for Engineering Education)

   Broadening participation in engineering among underrepresented minority students remains a big challenge for institutions of higher education. Since a large majority of underrepresented students attend community colleges, engineering transfer programs at these community colleges can play an important role in addressing this challenge. However, for most community college engineering programs, developing strategies and programs to increase the number and diversity of students successfully pursuing careers in engineering is especially challenging due to limited expertise, shrinking resources, and continuing budget crises. This paper is a description of how a small engineering transfer program at a Hispanic-Serving community college in California developed effective partnerships with high schools, other institutions of higher education, and industry partners in order to create opportunities for underrepresented community college students to excel in engineering. Developed through these partnerships are programs for high school students, current community college students, and community college engineering faculty. Programs for high school students include a) the Summer Engineering Institute – a two-week residential summer camp for sophomore and junior high school students, and b) the STEM Institute – a three-week program for high school freshmen to explore STEM fields. Academic and support programs for college students include: a) Math Jam – a one-week intensive math placement test review and preparation program; b) a scholarship and mentoring program academically talented and financially needy STEM students; c) a two-week introduction to research program held during the winter break to prepare students for research internships; d) a ten-week summer research internship program; e) Physics Jam – an intensive program to prepare students for success in Physics; f) Embedded Peer Instruction Cohort – a modified Supplemental Instruction program for STEM courses; g) STEM Speaker Series – a weekly presentation by professionals talking about their career and educational paths. Programs for community college STEM faculty and transfer programs include: a) Summer Engineering Teaching Institute – a two-day teaching workshop for community college STEM faculty; b) Joint Engineering Program – a consortium of 28 community college engineering programs all over California to align curriculum, improve teaching effectiveness, improve the engineering transfer process, and strengthen community college engineering transfer programs; c) Creating Alternative Learning Strategies for Transfer Engineering Programs – a collaborative program that aims to increase access to engineering courses for community college students through online instruction and alternative classroom models; and d) California Lower-Division Engineering Articulation Workshop – to align the engineering curriculum. In addition to describing the development and implementation of these programs, the paper will also provide details on how they have contributed to increasing the interest, facilitating the entry, improving the retention and enhancing the success of underrepresented minority students in engineering, as well as contributing to the strengthening of the community college engineering education pipeline. 

   more » « less