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化学电源课程教学改革与实践
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Abstract:
文章结合化学电源课程的特点提出化学电源教学改革措施:课堂教学要注意与先进技术发展相结合,以提高学生对前沿技术的敏感度;要改变传统授课模式,运用多种教学形式提高学生的课程参与度;要改变考核模式,开展与实验相结合的课程考核,强化学生对技术理论的应用程度;教学要与企业生产、就业密切结合,以增强学生的职业规划意识。谨以此文抛砖引玉,以期为化学电源课程体系建设与改革提供借鉴。
This article proposes teaching reform methods for chemical power sources based on the characteristics of the course. Classroom teaching should be combined with the development of advanced technology to enhance students’ sensitivity to cutting-edge technologies. We should change the traditional teaching mode and use various teaching methods to increase students’ participation in the course. We should change the assessment mode, carry out course assessments combined with experiments, and strengthen students’ application of technical theory. Teaching should be closely integrated with enterprise production and employment to enhance students’ awareness of career planning. We would like to use this article as a reference for the construction and reform of the chemical power sources curriculum system.
| [1] | 宋兴飞, 谢英鹏, 贾鑫, 李雪. 基于CDIO教育模式的化学电源工艺学教学改革与实践[J]. 化工管理, 2023(21): 37-40. |
| [2] | 刘云花, 刘莹, 陈丽军. 基于学生创新能力培养的化学电源技术课程教学改革路径——以贵州理工学院为例[J]. 西部素质教育, 2023, 9(7): 106-109. |
| [3] | 孙志鹏, 邵涟漪, 史晓艳. “双碳”目标下《化学电源》课程理论和实践教学改革研究[J]. 当代化工研究, 2023(16): 138-140. |
| [4] | 刘云花, 仇伟, 马先果, 陈振玲, 刘莹. 化学电源技术教学和实践双融合模式探索[J]. 科技风, 2023(21): 118-120. |
| [5] | 李黎明. 大学生多元化考核评价方式的探索与实践[J]. 教育教学论坛, 2020(49): 132-133. |
| [6] | 周朋飞, 吴小中. “化学电源工艺学”课程思政建设探索[J]. 广东化工, 2021, 48(17): 305-306. |
