摘要
在高等学校工程教育认证“解决复杂工程问题能力”驱动下,大学物理实验课程的选题内容和模式在不断改革和创新。锂离子电池技术作为当下新能源科技革命的代表,具有学科交叉性和综合性,满足复杂工程问题的多项特征。文章探讨了将锂离子电池技术引入大学物理实验教学的优势和可行性,并提炼出锂离子电池综合实验设计的具体实施方案,为提高学生解决复杂工程问题的能力,培养复合创新型大学生奠定基础。
Driven by the“ability to solve complex engineering problems”of engineering education certification,the content and mode of the topic selection of electronic science integrated design course in universities are constantly reformed and innovated.Lithium-ion battery technology is the representative of the current new energy scientific and technological revolution.It has multiple characteristics of interdisciplinary and comprehensive,and meets complex engineering problems.It discusses the feasibility and effectiveness of including lithium-ion battery technology into the comprehensive design course of electronic of science,and summarizes the specific implementation plan of comprehensive experimental design of lithium-ion battery,which lays a foundation for improving students’ability to solve complex engineering problems and training composite innovative college students.
作者
沈雪阳
陈淼
郭艳东
SHEN Xueyang;CHEN Miao;GUO Yandong(College of Electronic and Optical Engineering&College of Flexible Electronics(Future Technology),Nanjing University of Posts and Telecommunications,Nanjing 210046,China;School of Mechatronic Engineering,Jinling Institute of Technology,Nanjing 211169,China)
出处
《大学物理实验》
2024年第1期11-16,共6页
Physical Experiment of College
基金
国家自然科学基金(12304263)
南京邮电大学教学改革项目(JG10622JX60)
金陵科技学院校级项目(jit-b-202019)。
关键词
复杂工程问题
大学物理实验
锂离子电池
complex engineering problem
physical experimental of college
lithium-ion battery
