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The S‑T‑E‑M Quartet

2019, Tan, Aik-Ling, Teo, Tang Wee, Choy, Ban Heng, Ong, Yann Shiou

The issue of integrated STEM curriculum design and evaluation requires a more consistent understanding and clarity among STEM educators. In this paper, we propose an instructional framework of STEM integration based on the theoretical notions of disciplinarity and problem-centred learning. The proposed S-T-E-M Quartet instructional framework utilises complex, persistent and extended problems at its core, and the problem solving process as the overarching frame. The key difference between the proposed S-T-E-M Quartet instructional framework and models such as the STEM road map and the Cubic model for STEAM education is the emphasis on the connections between different disciplines. Similar to the STEM road map, the application of the S-T-E-M Quartet framework begins with a single lead discipline as the focus and subsequently examines how knowledge and skills of the lead discipline are connected and related to the other three disciplines. As an instructional framework, the S-T-E-M Quartet requires description of learning outcomes for each discipline when students work with the problem. The learning outcomes within individual disciplines constitute the vertical learning within a discipline. Depending on the problem described, the learning outcomes for some disciplines might be more in-depth than others. As the S-T-E-M Quartet foregrounds connections between disciplines, attention is also paid to the strength of connections, whether they are weak, moderate or strong. A case example of application of the S-T-E-M Quartet instructional framework is presented as an illustration of how the S-T-E-M Quartet instructional framework can be used to design and reflect on STEM tasks.

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Centricities of STEM curriculum frameworks: Variations of the S-T-E-M quartet

2021, Teo, Tang Wee, Tan, Aik-Ling, Ong, Yann Shiou, Choy, Ban Heng

This commentary is an extension to the integrated S-T-E-M Quartet Instructional Framework that has been used to guide the design, implementation and evaluation of integrated STEM curriculum. In our discussion of the S-T-E-M Quartet, we have argued for the centrality of complex, persistent and extended problems to reflect the authenticity of real-world issues and hence, the need for integrated, as opposed to monodisciplinary, STEM education. Building upon this earlier work, we propose two additional variationsjsolution-centric and user-centric approaches to the provision of integrated STEM curricular experiences to afford more opportunities that address the meta-knowledge and humanistic knowledge developments in 21st century learning. These variations to the S-T-E-M Quartet aims to expand the scope and utility of the framework in creating curriculum experiences for diverse profiles of learners, varied contextual conditions, and broad STEM education goals. Collectively, these three approaches problem-centric, solution-centric, and user-centricjcan afford more holistic outcomes of STEM education.

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Enabling classroom change by infusing cogen and coteaching in participatory action research

2017, Teo, Tang Wee, Mohamed Faizal Badron, Tan, Aik-Ling

Participatory action research is an empowering approach to advance research with participants. This paper describes and discusses the process and outcomes in engaging cogenerative dialogue (cogen) and coteaching in participatory action research (PAR) to support science curriculum change in a Singapore lower track classroom. The intervention was introduced after researching in a science teacher’s two lower tracker classrooms for about 18 months and observing that his lessons were teacher-centered and he experienced difficulty engaging the students. Using the empirical findings to inform teaching practice, the researchers engaged the science teacher and two selected students in two cogen sessions to identify issues with the science lessons. The students suggested solutions which were taken up and used to plan and design revised lessons co-taught by the science teacher and one researcher. This paper describes changes to the teacher’s and researcher’s teaching, learning, and research experiences through the lens of cogen and PAR. Transcripts from one cogen session, one cotaught lesson, one teacher interview, and one researcher’s written reflections were analyzed to distil affordances of PAR that led to changes in the classroom practices, views about science teaching and ways to carry out science research. The study illuminates the potentially transformative role of cogen, when coupled with action research, in Singapore and other classrooms.

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“It feels different when blindfolded”: Developing social empathy through inclusive designs in STEM

2024, Teo, Tang Wee, Tan, Aik-Ling, Choy, Ban Heng

Narratives about STEM (science, technology, engineering, and mathematics) education are strongly connected with conversations about developing learners' humanistic knowledge and their ability to listen with understanding and empathy. This is challenging because learners need to find resonance through first-hand contextual experiences with the issues at hand. In this paper, we describe and discuss an activity that was enacted to actively engage 74 teachers from Thailand in constructing a prototype cutting device for the blind to prepare food themselves. This activity underscores important considerations for inclusive design and offers affordances for teachers to develop their learners' inclusive mindsets. Findings were generated from voice recordings of reflections and written reflections collected after the activity. We highlight the importance of creating opportunities for learning to listen and resonate with others' experiences and argue that such STEM activities can offer a platform for learners to develop humanistic qualities such as social empathy.

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Theorizing STEM leadership: Agency, identity, and community

2021, Uma Natarajan, Tan, Aik-Ling, Teo, Tang Wee

STEM education, when perceived as integrated learning that encompasses knowledge, skills and practices of Science, Technology, Engineering and Mathematics, points to a need to re-examine ways of classification of school subjects and learning. Consequently, dilemmas related to integrated STEM education arise. School leaders are faced with the task to organize teams to address issues such as the ownership of STEM, identity issues such as STEM teacher or teacher of STEM subjects, evaluation of STEM programs and resources to support STEM education. The unique characteristics of integrated disciplines demand leaders who understand the unique characteristics and demands of each discipline and to apply them to build a synergistic platform to magnify the similarities and harness the differences for learning. In this paper, we present an argument for STEM leadership to focus on building STEM teachers’ agency, identity and sense of belonging to a community. These three aspects are important for meaningful planning, enactment and sustainability of STEM programs since teachers’ beliefs, intentions, actions and empowerment are known to be instrumental in the success of many educational reforms.

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Professional growth of STEM teachers: Viewing from Entrepreneurial Frame

2024, Tan, Aik-Ling, Teo, Tang Wee

This paper examines professional growth of a STEM teacher from the entrepreneurial frame. Using a personal narrative together with a STEM/science lesson package developed by the participant teacher, we unpack a teacher’s professional growth by interpreting her beliefs and actions using characteristics of entrepreneurial thinking. Our analysis and interpretations revealed that risk-taking forms of behaviour manifest as willingness to take calculated risks to make ‘cold’ calls to different organisations to request sharing or learning opportunities. The motivation to succeed stems from a belief that STEM education can improve the lives of students and that all students can learn. Passion for the discipline of STEM and personal beliefs to uplift students propel the teacher to persevere in her professional development despite busy schedules and conflicting demands of school and home. This study and its findings bring a fresh perspective to the idea of teacher agency from an entrepreneurial lens positioning teachers as self-empowered as compared to individuals who depended on the system to provide enablers for professional growth in the teaching profession. While self-empowerment to enact a curriculum is catalytic, teachers’ capacity for change is circumscribed by teachers’ capacity to act and accumulate practical knowledge. These entrepreneurial actions of successful STEM teachers could be used to facilitate teacher reflection on their professional journey. As the narrative approach sought to present an in-depth examination of the relationship between entrepreneurial thinking and teacher professional growth, the generalisability power of the assertions made is limited. The entrepreneurial thinking framework together with narratives from successful teachers enable teachers to locate where they are in their personal professional development and where they can aspire to move towards in their personal goal settings. Future research can examine teachers’ levels of entrepreneurial thinking and compare them against narratives of their professional growth to distil the behaviours that could lead to growth of entrepreneurial thinking. Curriculum leaders can also use the ideas of entrepreneurial thinking for professional growth to counsel and coach their team.