Abstract
Around the world, the demand for scientists and engineers grows while institutions struggle to provide more equitable STEM education and opportunities. The global movement for equity and diversity in STEM has implications for early childhood educators’ local teaching practices. An early childhood teacher educator describes the guiding principles and process of developing an equity-focused program in collaboration with diverse preschool families and teachers. The research-based program, called Family Science and Engineering Nights, used culturally responsive pedagogy as a framework for instruction and family engagement. The program made innovative, bilingual science and engineering encounters (testing hovercrafts, improving simple robots) available to 375 preschool children and their families. This chapter proposes strategies to enhance engagement with traditionally marginalized families through science and engineering education. Implications include considerations for applying a culturally responsive framework to global trends in STEM research and practice, including early childhood engineering, making, and tinkering. This work advances discourses on pedagogy in early childhood STEM education by deepening connections to an equity framework and family engagement.
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References
Bottoms, S. I., Ciechanowski, K., Jones, K., de la Hoz, J., & Fonseca, A. L. (2017). Leveraging the community context of Family Math and Science Nights to develop culturally responsive teaching practices. Teaching and Teacher Education, 61, 1–15.
Dani, D. E., Hartman, S. L., & Helfrich, S. R. (2018). Learning to teach science: Elementary teacher candidates facilitate informal STEM events. The New Educator, 14(4), 363–380.
Emdin, C., & Lee, O. (2012). Hip-hop, the “Obama effect,” and urban science education. Teachers College Record, 114(2), 1–24.
Garbacz, S. A., Herman, K. C., Thompson, A. M., & Reinke, W. M. (2017). Family engagement in education and intervention: Implementation and evaluation to maximize family, school, and student outcomes. Journal of School Psychology, 62(1), 1–10.
Gay, G. (2015). The what, why, and how of culturally responsive teaching: International mandates, challenges, and opportunities. Multicultural Education Review, 7(3), 123–139.
González, N. (2005). Beyond culture: The hybridity of funds of knowledge. In N. González, L. C. Moll, & C. Amanti (Eds.), Funds of knowledge: Theorizing practices in households, communities, and classrooms (pp. 29–46). Routledge.
Grace, R., Bowes, J., & Elcombe, E. (2014). Child participation and family engagement with early childhood education and care services in disadvantaged Australian communities. International Journal of Early Childhood, 46(2), 271–298.
Huerta, T. M., & Brittain, C. M. (2010). Effective practices that matter for Latino children. In E. G. Murillo, S. A. Villenas, R. T. Galván, J. S. Muñoz, C. MartĂnez, & M. Machado-Casas (Eds.), Handbook of Latinos and education: Theory, research, and practice (pp. 382–399). Routledge.
Ishimaru, A. M. (2019). From family engagement to equitable collaboration. Educational Policy, 33(2), 350–385.
Kraft, M. A., & Dougherty, S. M. (2013). The effect of teacher–family communication on student engagement: Evidence from a randomized field experiment. Journal of Research on Educational Effectiveness, 6(3), 199–222.
Ladson-Billings, G. (1995). But that’s just good teaching! The case for culturally relevant pedagogy. Theory into Practice, 34(3), 159–165.
Lee, O. (2005). Science education with English language learners: Synthesis and research agenda. Review of educational research, 75(4), 491–530.
Lee, O., Miller, E. C., & Januszyk, R. (2014). Next generation science standards: All standards, all students. Journal of Science Teacher Education, 25(2), 223–233.
Morgan, P. L., Farkas, G., Hillemeier, M. M., & Maczuga, S. (2016). Science achievement gaps begin very early, persist, and are largely explained by modifiable factors. Educational Researcher, 45(1), 18–35.
OECD. (2019). Why don’t more girls choose STEM careers? Organisation of Economic Co-operation and Development. www.oecd.org/gender/data/whydont-more-girls-choose-stem-careers.htm
Paz-Albo Prieto, J. (2018). Enhancing the quality of early childhood education and care: ECEC tutors’ perspectives of family engagement in Spain. Early Child Development and Care, 188(5), 613–623.
Perera, L. D. H. (2014). Parents’ attitudes towards science and their children’s science achievement. International Journal of Science Education, 36(18), 3021–3041.
Quinn, D. M., & Cooc, N. (2015). Science achievement gaps by gender and race/ethnicity in elementary and middle school: Trends and predictors. Educational Researcher, 44(6), 336–346.
Rabkin, G., Geffers, S., Hanemann, U., Heckt, M., & Pietsch, M. (2018). Hamburg’s Family Literacy project (FLY) in the context of international trends and recent evaluation findings. International Review of Education, 64(5), 651–677.
Sullivan, J., & Hatton, M. (2011). Math and science night. Science and Children, 48(5), 58–63.
UNESCO. (2021). Reimagining our futures together—A new social contract for education. Report from the International Commission on the Futures of Education, 2021.
Wasik, B. H. (Ed.). (2012). Handbook of family literacy. Routledge.
World Federation of Engineering Organizations. (2018). WFEO engineering 2030. A plan to advance the achievement of the UN Sustainability Goals through engineering. Progress Report No. 1. WFEO. www.wfeo.org/wp-content/uploads/un/WFEO-ENgg-Plan_final.pdf
Yanowitz, K. L., & Hahs-Vaughn, D. L. (2016). Adults’ perceptions of children’s science abilities and interest after participating in a family science night. School Science and Mathematics, 116(1), 55–64.
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Kye, H.A. (2022). Equity Pedagogies for Preschool Family Engagement in Science and Engineering. In: Papadakis, S., Kalogiannakis, M. (eds) STEM, Robotics, Mobile Apps in Early Childhood and Primary Education. Lecture Notes in Educational Technology. Springer, Singapore. https://doi.org/10.1007/978-981-19-0568-1_24
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