Innovative ongoing support within a multifaceted computational thinking professional learning program improves teachers’ self-efficacy and classroom practices

IF 8.9 1区教育学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers & Education Pub Date : 2024-10-05 DOI:10.1016/j.compedu.2024.105174

Jiangmei Yuan , Carla B. Brigandi , Karen E. Rambo-Hernandez , Catherine L. Manley

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引用次数: 0

Abstract

In-service elementary school teachers need training to teach computational thinking (CT). A common model for CT professional learning programs includes an initial workshop followed by ongoing support. However, little research has examined the efficacy of ongoing support, the most effective types, and its impact on classroom practices. The current study details a multifaceted CT professional learning program with innovative ongoing support to help elementary school teachers implement the Code.org curriculum. It also empirically investigated the impact of the support on teachers' self-efficacy in coding and teaching CT, the effectiveness of each component of the support, and to what extent it affected teachers' classroom practices. Our ongoing support included an additional workshop, grade-level professional learning community (PLC) sessions, instructional videos, and teacher leaders' support. Data included a pre-survey, four post-surveys, lesson observations, a focus group interview, tracking the number of video views, and surveys from PLC participants and teacher leaders. Results indicated that the ongoing support significantly increased teachers' self-efficacy in coding and teaching CT. Regarding the effectiveness of the various components of the ongoing support, the additional workshop significantly increased teachers' self-efficacy in coding and teaching CT. Teachers valued each component of the support, and this support improved teachers’ classroom practices.

查看原文本刊更多论文

在多元计算思维专业学习计划中提供创新性持续支持，提高教师的自我效能感和课堂实践能力

在职小学教师需要接受计算思维（CT）教学培训。计算思维专业学习计划的常见模式包括初期研讨会和持续支持。然而，很少有研究对持续支持的效果、最有效的类型及其对课堂实践的影响进行研究。本研究详细介绍了一项多方面的 CT 专业学习计划，该计划通过创新的持续支持来帮助小学教师实施 Code.org 课程。本研究还实证调查了支持对教师编码和 CT 教学自我效能的影响、支持的每个组成部分的有效性，以及对教师课堂实践的影响程度。我们的持续支持包括额外的研讨会、年级专业学习社区（PLC）会议、教学视频和教师领导的支持。数据包括一项事前调查、四项事后调查、课程观察、焦点小组访谈、视频观看次数跟踪以及 PLC 参与者和教师领导的调查。结果表明，持续的支持大大提高了教师编码和教授 CT 的自我效能感。关于持续支持的各个组成部分的有效性，额外的研讨会大大提高了教师在编码和 CT 教学方面的自我效能感。教师对支持的每个组成部分都给予了高度评价，这种支持改善了教师的课堂实践。

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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来源期刊

Computers & Education 工程技术-计算机：跨学科应用

CiteScore

27.10

自引率

5.80%

发文量

204

审稿时长

42 days

期刊介绍： Computers & Education seeks to advance understanding of how digital technology can improve education by publishing high-quality research that expands both theory and practice. The journal welcomes research papers exploring the pedagogical applications of digital technology, with a focus broad enough to appeal to the wider education community.