A Learning Experience Design Approach to Online Professional Development for Teaching Science through the Arts: Evaluation of Teacher Content Knowledge, Self-Efficacy and STEAM Perceptions

IF 2.1 Q1 EDUCATION & EDUCATIONAL RESEARCH Journal of Science Teacher Education Pub Date : 2022-09-27 DOI:10.1080/1046560X.2022.2112552
Joseph T. Wong, Nu N. Bui, Damani T. Fields, Bradley S. Hughes
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引用次数: 6

Abstract

ABSTRACT Traditional teacher professional development (PD) programs frequently lack sufficient face-to-face preparation time to adequately support the implementation of evidence-based pedagogical strategies in classrooms, with teachers citing insufficient preparedness and training time for new methods. To investigate potentials for online PD methods to effectively address these issues, while increasing sustainability, this study examined teachers in Title-I elementary schools spanning multiple school districts participating in a large-scale online PD certificate program preparing teachers over 10 instructional weeks to implement Next Generation Science Standards (NGSS) (S)cience, (T)echnology, (E)ngineering, (A)rts, (M)ath (STEAM) curricular instruction with goals of increasing teachers’ science content knowledge, self-efficacy to implement STEAM instruction, and STEAM teaching perceptions. Paired sample t-tests indicate teachers’ life science content knowledge, self-efficacy, and STEAM perceptions increased significantly after completing the online PD. Multiple regression analyses identified teachers’ science content knowledge and STEAM perceptions as statistically significant predictors of teachers’ self-efficacy to implement STEAM instructional strategies. Teachers’ posttest course evaluations were gleaned, highlighting three emergent themes: learning experience design, modality, and online teacher collaboration. Utilizing a mixed method approach, these qualitative insights corroborated the quantitative trends, describing how specific aspects of the pedagogical learning experience design (LXD) framework operationalized in the online course fostered a practitioner development learning environment, focused on supporting teachers’ learning needs. Results suggest practical design implications for sustainably increasing the efficacy of PD through online teacher training developed in conjunction with LXD models for iterative improvement and design of high-quality online instructional PD programs.
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艺术教学中在线专业发展的学习体验设计方法:教师内容知识、自我效能感和STEAM感知的评估
摘要传统的教师专业发展(PD)项目往往缺乏足够的面对面准备时间来充分支持课堂上循证教学策略的实施,教师们认为新方法的准备和培训时间不足。为了调查在线PD方法有效解决这些问题的潜力,同时提高可持续性,本研究调查了跨多个学区的一级小学的教师,他们参与了一项大规模的在线PD证书计划,为教师在10个教学周内实施下一代科学标准(NGSS),(E)工程学、(A)rts、(M)ath(STEAM)课程教学,目标是提高教师的科学内容知识、实施STEAM教学的自我效能感和STEAM教学观念。配对样本t检验表明,在完成在线PD后,教师的生命科学内容知识、自我效能感和STEAM感知显著增加。多元回归分析表明,教师的科学内容知识和STEAM认知是教师实施STEAM教学策略的自我效能的统计学显著预测因素。收集了教师的测试后课程评估,突出了三个新兴主题:学习体验设计、模式和在线教师合作。利用混合方法,这些定性见解证实了定量趋势,描述了在线课程中实施的教学学习体验设计(LXD)框架的具体方面如何培养从业者发展学习环境,重点支持教师的学习需求。研究结果表明,通过与LXD模型联合开发的在线教师培训,可持续地提高PD的疗效,具有实际的设计意义,用于迭代改进和设计高质量的在线教学PD程序。
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来源期刊
Journal of Science Teacher Education
Journal of Science Teacher Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
4.90
自引率
10.50%
发文量
41
期刊介绍: Journal of Science Teacher Education (JSTE) is the flagship journal of the Association for Science Teacher Education. It serves as a forum for disseminating high quality research and theoretical position papers concerning preservice and inservice education of science teachers. The Journal features pragmatic articles that offer ways to improve classroom teaching and learning, professional development, and teacher recruitment and retention at pre K-16 levels.
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