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Year 2023, Volume: 31, 119 - 126, 30.10.2023
https://doi.org/10.55549/epess.1381969

Abstract

References

  • Aikenhead, G. S. (1994). What is STS Science Teaching? In J. Solomon & G. S. Aikenhead (Eds.), STS Education: International perspectives on reform. Teachers College Press.
  • Albe, V. (2008). When scientific knowledge, daily life experience, epistemological and social considerations intersect: Students’ argumentation in group discussion on a socio-scientific issue. Research in Science Education, 38, 67–90.
  • Barendsen, E., & Henze, I. (2017). Relating teacher PCK and teacher practice using classroom observation. Research in Science Education, 1–35.

SSI: Teachers Make STEM Concepts Relevant to Their Students

Year 2023, Volume: 31, 119 - 126, 30.10.2023
https://doi.org/10.55549/epess.1381969

Abstract

Socioscientific issues (SSI) are ill-defined problems that teachers could use to make STEM concepts meaningful and interesting for their students. However, it is challenging for most teachers to plan and implement SSI in their classrooms because they lack the knowledge and teaching repertoire. We conducted a qualitative case study of five teachers to answer our research question: How did teachers’ pedagogical content knowledge (PCK) of SSI develop by the end of the professional development program? Our analysis of interviews, video reflection, and lesson plans pointed to teachers’ PCK of understanding of students and instructional strategies as they engage their students in identifying the issue, considering issue system dynamics, and comparing multiple perspectives (social aspects of SSI). Our findings supported the teachers’ PCK model that Lee (2022) proposed particularly the knowledge of students’ SSI learning and teachers’ choices of teaching and learning strategies for a particular group of students. Specifically, the teachers in our case study were able to use SSI contexts such as GMO foods and effects of fast fashion (chemicals on manufacturing and discarding clothes) on water quality on students’ motivation to learn about the scientific and ethical debates on GMOs and water resources. Moreover, a teacher was able to ask students to consider issue system dynamics such as habits, culture, lifestyle, costs, and income when examining different food choices. They were also able to engage students in developing, testing and analyzing scientific phenomena such as the effect of chemical dyes in clothing on water and genetically modified foods. They were able to incorporate elucidating one’s position on SSI and employing reflective scientific skepticism in their lesson ideas. Finally, teachers in our study used videos, guided questions, town hall meeting presentations, investigations, and other active learning strategies with their students.

References

  • Aikenhead, G. S. (1994). What is STS Science Teaching? In J. Solomon & G. S. Aikenhead (Eds.), STS Education: International perspectives on reform. Teachers College Press.
  • Albe, V. (2008). When scientific knowledge, daily life experience, epistemological and social considerations intersect: Students’ argumentation in group discussion on a socio-scientific issue. Research in Science Education, 38, 67–90.
  • Barendsen, E., & Henze, I. (2017). Relating teacher PCK and teacher practice using classroom observation. Research in Science Education, 1–35.
There are 3 citations in total.

Details

Primary Language English
Subjects Other Fields of Education (Other)
Journal Section Articles
Authors

Augusto Z Macalalag

Zachary Mınken This is me

Charu Varma This is me

Early Pub Date October 27, 2023
Publication Date October 30, 2023
Published in Issue Year 2023 Volume: 31

Cite

APA Macalalag, A. Z., Mınken, Z., & Varma, C. (2023). SSI: Teachers Make STEM Concepts Relevant to Their Students. The Eurasia Proceedings of Educational and Social Sciences, 31, 119-126. https://doi.org/10.55549/epess.1381969