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Chang Guo, Haipeng Yang, Hui Fang, Yingguo Zhao, Yating Li. 基于深度学习的物理化学课程DOK教学实践初探——以弯曲液面附加压力和蒸气压教学为例[J]. University Chemistry,
;2025, 40(6): 28-36.
doi:
10.12461/PKU.DXHX202408049
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为促进学生深度学习,提升物理化学课程教学质量,以表面化学中“弯曲表面的附加压力和蒸气压”的教学为例,从学生实际出发,应用DOK (Depth of Knowledg,知识深度)理论划分教学内容等级,设计不同课堂活动和小组任务,从力和能量两个角度深化逻辑主线,体现学科融合,培养高阶思维。对于教学难点Kelvin方程,以表现性任务体现生活和生产中的实际应用,激发兴趣。以小组讨论话题层层递进,从力对于化学势的影响出发,将Kelvin方程从单组分系统推广到多组分溶液和多组分化学反应系统,体现热力学的多元应用,意义建构。通过课前SPOC (Small Private Online Course,小规模在线课程)任务清单,课上雨课堂翻转讨论,课后公众号展示拓展,开展混合式教学。经过教学实践,结合问卷调查和学生产出,发现基于深度学习的DOK教学,不仅能帮助学生发展各项高阶能力,而且学习主动性和实践创新能力都得到有效提高。
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Keywords:
- Deep learning,
- DOK,
- Physical chemistry,
- Performance task,
- Teaching practice
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