Research on the Reform of College Physics Teaching Based on the Background of New Engineering

Abstract

Abstract: In the context of the construction of new engineering disciplines, the problem of insufficient adaptability of traditional university physics teaching majors is becoming increasingly prominent. This article proposes a reform of the organizational form of teaching and research groups based on major categories, focusing on the reform of teaching materials and teaching modes that integrate majors. By forming interdisciplinary teaching teams, on the one hand, a new version of the textbook “physics science knowledge points+professional engineering application questions” will be developed, closely integrating basic physics knowledge with engineering applications. On the other hand, a teaching mode combining “fixed teaching content+variable professional expansion” will be adopted, and corresponding chapters of professional expansion content will be learned according to professional needs. This type of teaching reform has the characteristic of strong promotion, which can improve the relevance of course content and enhance students' knowledge transfer ability under the existing faculty and teaching conditions in various colleges and universities.

Key words: New engineering, College physics, Professional integration, Reform of teaching and research groups, Engineering application problems, Variable professional expansion

CLC Number:

G642

HU Qiang, LI Ming, CAO Guohua, CAI Hongxin, ZONG Haitao, QIAO Wentao. Research on the Reform of College Physics Teaching Based on the Background of New Engineering[J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(16): 45-47.

References

[1] 吴岩.勇立潮头,赋能未来——以新工科建设领跑高等教育变革[J].高等工程教育研究,2020(2):1-5.
[2] 林健. 面向未来的中国新工科建设[J].清华大学教育研究, 2017,38(2):26-35.
[3] 吴爱华,侯永峰,杨秋波,等.加快发展和建设新工科主动适应和引领新经济[J].高等工程教育研究,2017(1): 1-9.
[4] 教育部办公厅.关于推荐新工科研究与实践项目的通知[EB/OL]. (2017-06-16). http://www.moe.gov.cn/srcsite/A08/s7056/201707/t20170703_308464.html.
[5] 杨定泉. 基于产出导向的课程教学模式设计[J].高教学刊, 2018(20):114-116,119.
[6] 段胜楠,龙春红,徐文啸,等.新工科背景下大学物理教学与应用型创新人才培养的探索与研究[J].物理通报, 2024(10):15-18.
[7] 石湘琨,唐慧敏.新工科背景下的大学物理课程建设与实践[J].广西物理,2024,45(3):50-53.
[8] 郭东琴,苗劲松,张晖,等.大学物理教学突出军事特色的探索与实践[J].科教文汇(下旬刊),2021(15):46-48.
[9] 赵跃英,王祖源.注重基础物理课程与专业学科间的衔接——大学物理教学设计之五[J].物理与工程,2010,20(4): 7-8.
[10] 杜伟伟,彭敏,李华振,等.大学物理模块化教学改革初探[J].广西物理,2021,42(2):65-67.
[11] 李红,杨新建.面向拔尖创新人才培养的基础学科教学模式改革——以大学物理课程为例[J].高等理科教育, 2023(6):10-18.
[12] 吴方平,杨军,章曦,等.大学物理教学内容与专业关联研究[J].科技资讯,2019,17(21):164,166.
[13] 许媛,侯丽,焦铮,等.“新工科”背景下大学物理课程与专业的有效衔接[J].中国现代教育装备,2019(1):72-74.
[14] 徐洁如,徐迅.与机械工程相结合的大学物理教学设计[J].物理与工程,2023,33(5):102-107.

[1]	WANG Ye, DENG Wei, ZHANG Yuming. Research on Teaching Reform of Computer Programming Courses under the Background of New Engineering—Case Study of Guilin University of Aerospace Technology [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(9): 45-47.
[2]	YANG Xi. Exploration and Practice of Cultivating Applied Innovative Talents in Architecture [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(9): 189-192.
[3]	REN Jiajia, LU Hongfei. Research on the “Double Innovation” Talent Training Model in Local Universities under the Background of New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(8): 146-149.
[4]	TANG Ze, LI Shiwei, XU Chen. Research on the Education Scheme of Automation Course C Program Design [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(7): 46-49.
[5]	JIN Pen, YUAN Peilin, WANG Xin, SUN Chufeng, WEI Xiaodong. Research on the Reform and Practice of the “Specialized Innovation Integration” Chemical Talent Training Model under the Background of New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(7): 111-113.
[6]	CHANG Cong, XU Zisong, HUANG Qin, LIU Bao. Research and Practice on Cultivation Mode of Applied Innovative Talents in Chemistry and Chemical Engineering under the Background of New Engineering Discipline—Taking the School of Chemistry and Chemical Engineering of Guangxi Minzu University as Example [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(7): 114-117.
[7]	HUANG Shan, XU Jinying, LIU Jun, HU Chunhua, ZENG Huiqing, HUANG Ting. Exploration of Teaching Reform in the Course of Solid Waste Treatment, Disposal, and Resource Utilization under the Background of the New Engineering Discipline [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 24-27.
[8]	ZHAO Xi, XU Xingqian, LIU Huimei, LI Xiaolong. Research on the Cultivation of Outstanding Engineering Talents in the New Engineering Field Driven by the Four Chains of “Industry Study Research Competition” [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 55-57.
[9]	CHEN Zhu, GUO Wenyan, CAI Pan, HUANG Zhao, TANG Li, NIE Libo. Exploration and Practice on Industry-Education Integrated Teaching Model in Biomedical Engineering—Taking the “Excellent Class of Hunan University of Technology and Beijing Diwen Technology Co., LTD” as an Example [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 88-90.
[10]	ZHANG Huilin, DONG Kun. Research on the Problems and Optimization Strategies of Curriculum Construction in Engineering Majors under the Background of New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 91-93.
[11]	KANG Xuejuan, XUE Ronghui. Exploration of the Talent Training Model for Electrical Engineering under the “Three Chain Integration” Mode Based on New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 109-111.
[12]	YANG Chuang, YANG Feng. Innovation and Practice of Collaborative Education System of Material Science and Engineering under the Background of New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(4): 121-124.
[13]	CUI Qimei, LIU Yiming. Exploration of Interdisciplinary Course Construction in Information Communication and Artificial Intelligence under the Background of New Engineering [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(3): 97-99.
[14]	NING Doudou, CAI Li, NAN Yun, CHEN Xijuan, WEI Xiaodong. Exploration of the Training Model for Undergraduate Scientific Research Innovation Ability under the Background of New Engineering—Taking the School of Education Experiment/School of Future Technology of Northwestern Polytechnical University as an Example [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(3): 135-137.
[15]	DONG Yan, LI Cui, CAO Mengjing, SUN Qian, LI Wenfei. Research on the Practical Teaching Model of Petroleum Engineering in the Smart Education Environment [J]. The Theory and Practice of Innovation and Enntrepreneurship, 2025, 8(3): 142-144.