A study of a professional learning program for primary school teachers implementing the New South Wales science and technology syllabus

Hickmott, Daniel Phillip

Title: A study of a professional learning program for primary school teachers implementing the New South Wales science and technology syllabus
Creator: Hickmott, Daniel Phillip
Relation: University of Newcastle Research Higher Degree Thesis
Resource Type: thesis
Date: 2020
Description: Research Doctorate - Doctor of Philosophy (PhD)
Description: Australia is one of several countries that has recently mandated that K-12 students learn computational thinking and coding from the early years of schooling. The introduction of the mandatory teaching of these skills presents many challenges for teachers because these skills have not usually been taught in their initial teacher education. Many professional learning opportunities have been developed to upskill teachers in this new content, but few studies have investigated the impact of these opportunities on teachers’ understanding of computational concepts or self-efficacy in computational thinking. This study investigated the impact of a professional learning program, Coding in Stage 3, on teachers’ understanding of computational concepts, self-efficacy in computational thinking and plans for integrating coding into different subjects. The teachers who completed the Coding in Stage 3 program (N=42) participated in one of two streams that had a different subject focus: a stream focussed on integrating coding in Mathematics, ScratchMaths (n=15), and another stream focussed on integrating coding across multiple subjects, Coding & STEAM (n=27). Consequently, the study also aimed to compare the difference between the two streams by subject focus. The findings from the mixed methods analysis indicate that, overall, the participating teachers gained in their understanding of computational concepts and their self-efficacy but that the subject focus of the program did not impact those gains. However, teachers who completed the program with a focus on Mathematics were significantly more likely to integrate coding in Mathematics lessons after the program. I argue that more resources that integrate coding with subjects other than Mathematics should be developed but would warn against the notion that integrating coding with other subjects saves instructional time. In addition, in order to address the challenge of implementing these new curricula, educational leaders should be aware that there is a need to support teachers to develop strategies for sharing their coding knowledge with colleagues, and that these strategies will be as important as professional learning programs designed to upskill individual teachers.
Subject: computational thinking; coding; professional learning opportunities; primary school teachers
Identifier: http://hdl.handle.net/1959.13/1417667
Identifier: uon:37233
Language: eng
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