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Increasing student science, technology, engineering and mathematics engagement through phyphox activities: Three practical examples

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Publicado en:Future in Educational Research vol. 3, no. 1 (Mar 1, 2025), p. 111-127
Autor Principal: Milner‐Bolotin, Marina
Outros autores: Milner, Valery
Publicado:
John Wiley & Sons, Inc.
Materias:
Canada
British Columbia Canada
Teaching
Students
Smartphones
Educational technology
Teachers
Science education
Natural Sciences
Educational Research
Data Collection
Learning Motivation
Influence of Technology
Active Learning
Learning Processes
Energy Conservation
Mathematics Education
Laboratory Experiments
Educational Objectives
In Person Learning
Student Motivation
Classrooms
Creativity
Elementary Secondary Education
Ownership
Investment
Science Curriculum
College Science
Learner Engagement
Physics
Inquiry
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Resumo:For decades, educators in science, technology, engineering and mathematics (STEM) have strived to break the vicious circle of student disengagement at both secondary and post‐secondary levels. Despite the widespread availability of technologies like smartphones, STEM pedagogies have largely remained unchanged. Too often, students learn STEM theoretically with little hands‐on experience or opportunities to engage in authentic, research‐like activities. Modern smartphones can offer unprecedented opportunities for active STEM learning, but can also serve as distractors. Therefore, it is essential for teachers to acquire the pedagogical knowledge to harness these powerful tools effectively. This paper explores the potential of integrating smartphones into physics labs to enrich STEM learning. By leveraging smartphones' advanced capabilities for experimental design, data collection, and analysis, we have implemented a smartphone‐enhanced pedagogical approach in secondary physics classes and province‐wide Physics Olympics. We also implemented smartphone‐enhanced STEM pedagogies in teacher education. Our initial pilot study has yielded promising outcomes: enhanced student engagement in physics and deeper conceptual understanding. To advance this initiative, we propose structured teacher mentorship and professional development, empowering STEM educators to seamlessly integrate smartphones into their teaching. By embracing these modern educational tools, adopting evidence‐based pedagogical approaches, and supporting future and practicing educators we can make STEM learning more engaging and relevant for all students.
ISSN:2835-9402
DOI:10.1002/fer3.50
Fonte:Publicly Available Content Database