A computational thinking course for all preservice K-12 teachers: implementing the four pedagogies for developing computational thinking (4P4CT) framework

Noa Ragonis, Rinat B. Rosenberg-Kima, Orit Hazzan
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Abstract

Computational thinking is accepted today as a collection of cognitive and social skills required for functioning in the 21st century. The paper presents a conceptual view at computational thinking that encompass concepts, problem-solving skills, application skills, and social skills. To impart those perceptions and skills the paper proposes the Four Pedagogies for Developing Computational Thinking (4P4CT) framework, which relies on active learning, project-based learning, product-based learning, and context-based learning, and advocates implementing computational thinking across all the education system in all subject matters at all ages by all teachers. The framework is presented and its implementation in an academic course for preservice K-12 teachers, taught so far in 16 classes attended by 409 preservice K-12 teachers, is described in detail. To support the effective development of the expected competences among preservice teachers, two types of empirical qualitative evidence, related to student outcomes, are presented: (a) simulations of computational processes, and (b) reflections that indicate a change in preservice teachers' perceptions and the application of computational thinking in their future teaching work.

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面向所有 K-12 职前教师的计算思维课程:实施培养计算思维的四种教学法(4P4CT)框架
如今,计算思维已被视为 21 世纪所需的认知和社交技能的集合。本文介绍了计算思维的概念,其中包括概念、解决问题的技能、应用技能和社交技能。为了传授这些概念和技能,论文提出了 "发展计算思维的四种教学法(4P4CT)"框架,该框架依赖于主动学习、基于项目的学习、基于产品的学习和基于情境的学习,并倡导所有教师在所有年龄段的所有学科教育系统中实施计算思维。本文介绍了该框架,并详细描述了该框架在 K-12 职前教师学术课程中的实施情况,迄今已有 409 名 K-12 职前教师参加了 16 个班的教学。为了支持有效培养职前教师的预期能力,介绍了与学生成果相关的两类经验性定性证据:(a) 计算过程模拟,以及 (b) 表明职前教师的观念发生变化并在未来教学工作中应用计算思维的反思。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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