Informal Spaces for STEM Learning and Teaching

Contemporary society of the fourth industrial revolution (Industry 4.0) increasingly requires the education system (i.e., the school) to train competent, creative and proactive professionals who will be able to solve real life problems. If society is to achieve this, some key paradigm changes must occur in education. The school must first prepare a competence-based curriculum and, secondly, school practice should move away from subject-based teaching, towards an interdisciplinary STEM teaching approach. Obviously, to support this, modern learning environments and ICT solutions and tools have to be used. However, since the interdisciplinary STEM approach has already been implemented and integrated, it can be said that a new, integrated science discipline (STEM) has already emerged, together with a transdisciplinary approach to STEM learning and teaching. In the present research, a concrete case of designing, developing and producing a solar chimney was used to demonstrate an integrated approach to learning and teaching, while emphasizing especially the advantages of such an interdisciplinary (transdisciplinary) approach to teaching Science, Technology, Engineering and Mathematic content. The empirical research shows that such an approach produces incomparably better results, especially on higher cognitive levels, in comparison to traditional approaches to learning and teaching. Keywords: industry 4.0, interdisciplinarity, solar chimney, STEM, transdisciplinarity.

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Prospective Secondary Math Teachers Encountering STEM in a Methods Course: When Math is More Than “Just Math”

International Journal of Technology in Education ◽

10.46328/ijte.41 ◽

2021 ◽

Vol 4 (2) ◽

pp. 247-286

Author(s):

Lisa Marco-Bujosa

Keyword(s):

Teacher Education ◽

Student Teaching ◽

Prospective Teachers ◽

Teacher Education Program ◽

The United States ◽

Methods Course ◽

Student Interest ◽

Stem Learning ◽

Learning And Teaching ◽

K 12

Education reforms in the United States and abroad have increased efforts to improve student interest and capacity in STEM (science, technology, engineering, and mathematics). Despite these attempts, students still have little opportunity to engage in STEM learning in K-12 education. This qualitative case study was designed to investigate how incorporating STEM into teacher education can promote STEM teaching as well as enhance math instruction. The study took place in the fourth year of an undergraduate teacher education program spanning a secondary math and science Methods course and student teaching. Guided by the framework of sensemaking, individual interviews, teaching artifacts, and written reflections for four teachers were analyzed to identify moments of dissonance that pushed participants to reach new understandings about the learning and teaching of math. Findings indicated that learning to teach math through the lens of STEM shifted pre-service teachers’ instructional emphasis in two ways: 1) figuring out math vs. learning about math; and 2) teaching math through authentic STEM contexts as opposed to focusing purely on mathematics. However, experiences in student teaching can either enhance or stifle these gains. Findings suggest the role of teacher education in promoting STEM education by shifting prospective teachers’ mindsets about mathematics and teaching.

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