构建STEM:教师开发的基于工程设计的STEM整合课程材料分析

Q1 Social Sciences

Journal of Pre-College Engineering Education Research Pub Date : 2016-06-08 DOI:10.7771/2157-9288.1129

S. Guzey, Tamara J. Moore, Michael R. Harwell

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引用次数: 113

摘要

改善K-12科学、技术、工程和数学(STEM)教育是美国众多教育改革的优先事项。为此，开发和维持专注于综合STEM教育的高质量项目对教育工作者来说至关重要。任何STEM项目的成功实施都与所使用的课程材料有关。教育工作者越来越认识到为综合STEM教育寻找高质量课程材料的挑战。在本研究中，48名教师参与了为期一年的STEM整合专业发展计划，他们设计了20个新的基于工程设计的STEM课程单元。每个STEM课程单元包括一个工程挑战，学生开发技术来解决挑战;每个单元还整合了年级水平适当的数学(数据分析和测量)和三个科学内容领域之一:生命科学，物理科学或地球科学。使用STEM整合课程评估(STEM- ica)工具对总共20个STEM整合单元进行了评估。STEM单元之间的比较表明，与以生命科学和地球科学为重点的STEM单元中使用的真实背景相比，以物理科学为重点的STEM单元中工程活动的背景或背景更吸引人，更能激励人。此外，数学整合和沟通数学、科学和工程思维并没有发现对STEM单元的整体质量有很大贡献。将讨论设计有效的STEM综合教育专业发展的意义。

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Building Up STEM: An Analysis of Teacher-Developed Engineering Design-Based STEM Integration Curricular Materials

Improving K–12 Science, Technology, Engineering, and Mathematics (STEM) education has a priority on numerous education reforms in the United States. To that end, developing and sustaining quality programs that focus on integrated STEM education is critical for educators. Successful implementation of any STEM program is related to the curriculum materials used. Educators increasingly recognize the challenge of finding quality curriculum materials for integrated STEM education. In this study, 48 teachers participated in a year-long professional development program on STEM integration, and they designed 20 new engineering design-based STEM curriculum units. Each STEM curriculum unit includes an engineering challenge in which students develop technologies to solve the challenge; each unit also integrates grade level appropriate mathematics (data analysis and measurement) and one of the three science content areas: life science, physical science, or earth science. A total of 20 STEM integration units were assessed using the STEM Integration Curriculum Assessment (STEM-ICA) tool. Comparisons among the STEM units showed that the context or the engineering activities in physical science focused STEM units were more engaging and motivating comparing to the authentic contexts used in life science and earth science focused STEM units. Moreover, mathematics integration and communicating mathematics, science, and engineering thinking were not found to strongly contribute to the overall quality of the STEM units. Implications for designing effective professional development on integrated STEM education will be discussed.

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来源期刊

Journal of Pre-College Engineering Education Research Social Sciences-Education

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

32 weeks

期刊介绍： The Journal of Pre-College Engineering Education Research (J-PEER) is issued electronically twice a year and serves as a forum and community space for the publication of research and evaluation reports on areas of pre-college STEM education, particularly in engineering. J-PEER targets scholars and practitioners in the new and expanding field of pre-college engineering education. This journal invites authors to submit their original and unpublished work in the form of (1) research papers or (2) shorter practitioner reports in numerous areas of STEM education, with a special emphasis on cross-disciplinary approaches incorporating engineering. J-PEER publishes a wide range of topics, including but not limited to: research articles on elementary and secondary students’ learning; curricular and extracurricular approaches to teaching engineering in elementary and secondary school; professional development of teachers and other school professionals; comparative approaches to curriculum and professional development in engineering education; parents’ attitudes toward engineering; and the learning of engineering in informal settings.