Document Type

Dissertation

Degree Name

Doctor of Philosophy (PhD)

Department

Psychology

Program Name/Specialization

Developmental Psychology

Faculty/School

Faculty of Science

First Advisor

Eileen Wood

Advisor Role

Supervisor

Second Advisor

Alexandra Gottardo

Advisor Role

Supervisor

Third Advisor

Julie Mueller

Advisor Role

Committee Member

Abstract

Abstract

Around the globe, there has been a significant focus on ensuring youth receive sufficient education and training in Science, Technology, Engineering, and Math (STEM) domains. Education reforms often begin with educators, who are responsible for effectively implementing curriculum changes. However, in Canada, although STEM education reform is underway, teacher education and professional learning (PL) and development may not have kept pace, potentially leaving some teachers feeling unprepared to integrate these changes confidently and effectively. This dissertation introduces two studies that investigate pre-service teachers’ readiness to teach STEM domains in the classroom, as well as the impact of a PL intervention aimed at improving teacher knowledge and skills in components of STEM. In both studies, teacher readiness was evaluated through the lens of self-efficacy theory (Bandura 1977, 1986) and the Technological Pedagogical Content Knowledge (TPACK; Mishra & Koehler, 2006) framework. In Study 1, pre-service teachers from Canadian Bachelor of Education programs (n = 216) completed a comprehensive survey to establish a baseline for their experiences, knowledge, and perceptions, and to investigate and understand factors that impact pre-service teachers’ preparedness to teach STEM education. Overall, outcomes indicated that pre-service teachers are moderately prepared to teach some components of STEM, but they may benefit from additional PL opportunities to increase confidence and knowledge. These resources may be especially helpful for individuals who lack an educational background or interest in science. In Study 2, pre-service teachers (n = 47) were offered an evidence-based, long-term, online PL focused on teaching STEM using cross-curricular approaches. Pre- and post-test measures focused on teaching efficacy, outcome expectations, TPACK for teaching science, STEM PL need, and confidence with course concepts. Overall, results suggest that the PL was effective at increasing pre-service teachers teaching self-efficacy in science, TPACK, confidence with course concepts, confidence teaching STEM using an integrated approach and decreasing the need for science and technology pedagogy PL.

Convocation Year

2025

Convocation Season

Spring

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