Collaborative Research: Research as a base to develop adaptable curricula bridging instructional paradigms in Quantum Mechanics

合作研究：以研究为基础，开发桥接量子力学教学范式的适应性课程

• 批准号: 1626594
• 负责人: Gina Passante
• 金额: $ 27.58万
• 依托单位: CSU Fullerton Auxiliary Services Corporation
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2016
• 资助国家: 美国
• 起止时间: 2016-10-01 至 2022-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1626594&HistoricalAwards=false
• 关键词: Collaborative; Research; base; develop; adaptable

This project will investigate and improve instruction in one of the fastest growing and most important areas of contemporary physics: quantum mechanics (QM). QM is the physics of extremely small systems (e.g. the size of an atom). Advances in engineering have led to an increased number of technologies that manipulate matter on this scale, leading to an increasingly critical need for a quantum-literate STEM workforce in both industry and research. This project leverages research into student learning and the challenges associated specifically with learning quantum physics. The outcomes of this work will have a significant impact on the education of STEM majors across the country, and will better prepare students for the growing number of careers in quantum technologies and research. The project will develop new research-based educational materials that are easily adoptable by faculty from a diverse range of institutions and student populations. This will be done by answering four questions: what must students learn, what are students currently learning, how can their learning be improved, and how can faculty be helped to effectively utilize the resources developed? Thus, the key goals of this research project are to: 1) develop a set of learning goals for undergraduate quantum mechanics instruction by collaborating with a broad spectrum of faculty, industry, and research leaders; 2) improve understanding of student learning and student difficulties in QM with a focus on student learning in different instructional settings; 3) develop educational materials and assessments for quantum mechanics instruction suitable for use in multiple instructional paradigms, that are easy for faculty to modify and use in a diverse range of institutions; and 4) widely disseminate these materials, support new users, and evaluate the effectiveness of the curriculum. The scope of the research and curriculum development will target a diverse population of students so the results and curricular materials will be broadly applicable.

该项目将研究和改进当代物理学发展最快和最重要的领域之一：量子力学（QM）的教学。量子力学是极小系统（例如原子大小）的物理学。工程学的进步导致了越来越多的技术能够如此大规模地操纵物质，从而导致工业和研究领域对具有量子素养的 STEM 劳动力的需求日益迫切。该项目利用对学生学习以及与学习量子物理相关的挑战的研究。这项工作的成果将对全国 STEM 专业的教育产生重大影响，并将为学生更好地为越来越多的量子技术和研究职业做好准备。 该项目将开发新的基于研究的教育材料，这些材料可以很容易地被来自不同机构的教师和学生群体采用。这将通过回答四个问题来实现：学生必须学习什么，学生当前正在学习什么，如何改进他们的学习，以及如何帮助教师有效利用所开发的资源？因此，该研究项目的主要目标是：1）通过与广泛的教师、行业和研究领导者合作，为本科生量子力学教学制定一套学习目标； 2) 提高对质量管理中学生学习和学生困难的理解，重点关注学生在不同教学环境中的学习； 3）开发适用于多种教学范式的量子力学教学教育材料和评估，易于教师在各种机构中修改和使用； 4) 广泛传播这些材料，支持新用户，并评估课程的有效性。研究和课程开发的范围将针对不同的学生群体，因此结果和课程材料将广泛适用。