{"title":"Designing for STEM Integration","authors":"L. Berland","doi":"10.7771/2157-9288.1078","DOIUrl":null,"url":null,"abstract":"Abstract We are increasingly seeing an emphasis on STEM integration in high school classrooms such that students will learn and apply relevant math and science content while simultaneously developing engineering habits of mind. However, research in both science education and engineering education suggests that this goal of truly integrating STEM is rife with challenges. As such, this paper reports upon the efforts of an NSF-funded project to translate the lessons learned in science classrooms—in which the science learning goals are contextualized within engineering challenges—to engineering classrooms—in which the engineering practices are an additional, and important, learning goal. In particular, this paper identifies design principles for facilitating student application of math and science concepts while they engage in the practices of engineering. We explain the intent and learning theories behind each principle. In addition, we reify each goal by illustrating its application in our yearlong engineering course. Abstract We are increasingly seeing an emphasis on STEM integration in high school classrooms such that students will learn and apply relevant math and science content while simultaneously developing engineering habits of mind. However, research in both science education and engineering education suggests that this goal of truly integrating STEM is rife with challenges. As such, this paper reports upon the efforts of an NSF-funded project to translate the lessons learned in science classrooms—in which the science learning goals are contextualized within engineering challenges—to engineering classrooms—in which the engineering practices are an additional, and important, learning goal. In particular, this paper identifies design principles for facilitating student application of math and science concepts while they engage in the practices of engineering. We explain the intent and learning theories behind each principle. In addition, we reify each goal by illustrating its application in our yearlong engineering course.","PeriodicalId":37951,"journal":{"name":"Journal of Pre-College Engineering Education Research","volume":"3 1","pages":"22-31"},"PeriodicalIF":0.0000,"publicationDate":"2013-04-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"68","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Pre-College Engineering Education Research","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.7771/2157-9288.1078","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"Social Sciences","Score":null,"Total":0}
引用次数: 68
Abstract
Abstract We are increasingly seeing an emphasis on STEM integration in high school classrooms such that students will learn and apply relevant math and science content while simultaneously developing engineering habits of mind. However, research in both science education and engineering education suggests that this goal of truly integrating STEM is rife with challenges. As such, this paper reports upon the efforts of an NSF-funded project to translate the lessons learned in science classrooms—in which the science learning goals are contextualized within engineering challenges—to engineering classrooms—in which the engineering practices are an additional, and important, learning goal. In particular, this paper identifies design principles for facilitating student application of math and science concepts while they engage in the practices of engineering. We explain the intent and learning theories behind each principle. In addition, we reify each goal by illustrating its application in our yearlong engineering course. Abstract We are increasingly seeing an emphasis on STEM integration in high school classrooms such that students will learn and apply relevant math and science content while simultaneously developing engineering habits of mind. However, research in both science education and engineering education suggests that this goal of truly integrating STEM is rife with challenges. As such, this paper reports upon the efforts of an NSF-funded project to translate the lessons learned in science classrooms—in which the science learning goals are contextualized within engineering challenges—to engineering classrooms—in which the engineering practices are an additional, and important, learning goal. In particular, this paper identifies design principles for facilitating student application of math and science concepts while they engage in the practices of engineering. We explain the intent and learning theories behind each principle. In addition, we reify each goal by illustrating its application in our yearlong engineering course.
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.
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