期刊名称:Proceedings of the Canadian Engineering Education Association
出版年度:2021
期号:Proceedings of the Canadian Engineering Education Association (CEEA-ACEG) Conference June 20 - 23 PEI
页码:1
DOI:10.24908/pceea.vi0.14945
出版社:The Canadian Engineering Education Association (CEEA)
摘要:Despite recent research and initiatives, learner-centered instructional practices have not made their way into post-secondary Science, Technology,Engineering and Math (STEM) classrooms, even though there is clear evidence showing the benefits include increased grades, higher student engagement, and deeper learning. STEM educators rank the barriers associated with active learning higher than their colleagues in other disciplines, and identify the inability to cover all the content as a key factor in their decision to adhere to didactic practices. Insights and instructional strategies and methods garnered from teaching-related faculty development opportunities are often tried, but their use is not generally sustained unless a personal experiencedrives that change in practice. Unquestionably, COVID-19 has had an immediate, global impact on higher education. Educators have been forced to alter their teaching practices to accommodate the switch to remote learning. Most Teaching and Learning Centers offered myriad workshops to facilitate this change. This quantitative study set out to determine if COVID-19 precautions created the personal experience necessary to initiate a change in STEM teaching practices. Using educator-related threshold concepts as a framework, it analyzed institutional registration records to determine the type of faculty development opportunitieschosen by engineering educators, and the extent to which they participated in those related to learner-centered instructional practices for remote delivery.Analysis shows that engineering educators participated proportionally less than their colleagues in other disciplines, and there is an indication that the pandemic may facilitate an ongoing change in the teaching practices of engineering educators. Opportunities for enhancing faculty development practices for engineering educators are proposed.
其他摘要:Despite recent research and initiatives, learner-centered instructional practices have not made their way into post-secondary Science, Technology,Engineering and Math (STEM) classrooms, even though there is clear evidence showing the benefits include increased grades, higher student engagement, and deeper learning. STEM educators rank the barriers associated with active learning higher than their colleagues in other disciplines, and identify the inability to cover all the content as a key factor in their decision to adhere to didactic practices. Insights and instructional strategies and methods garnered from teaching-related faculty development opportunities are often tried, but their use is not generally sustained unless a personal experiencedrives that change in practice. Unquestionably, COVID-19 has had an immediate, global impact on higher education. Educators have been forced to alter their teaching practices to accommodate the switch to remote learning. Most Teaching and Learning Centers offered myriad workshops to facilitate this change. This quantitative study set out to determine if COVID-19 precautions created the personal experience necessary to initiate a change in STEM teaching practices. Using educator-related threshold concepts as a framework, it analyzed institutional registration records to determine the type of faculty development opportunitieschosen by engineering educators, and the extent to which they participated in those related to learner-centered instructional practices for remote delivery.Analysis shows that engineering educators participated proportionally less than their colleagues in other disciplines, and there is an indication that the pandemic may facilitate an ongoing change in the teaching practices of engineering educators. Opportunities for enhancing faculty development practices for engineering educators are proposed.