Core Elements of Project-based Learning in Experimental Teaching under the Background of “Emerging Engineering Education”

YE Fei; WANG Haiou; LI Yanyan

doi:10.19979/j.cnki.issn10082689.2023120039

Volume 40 Issue 4

Aug. 2024

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Article Navigation > Journal of University of Science and Technology Beijing ( Social Sciences Edition) > 2024 > 40(4): 47-55

YE Fei, WANG Haiou, LI Yanyan. Core Elements of Project-based Learning in Experimental Teaching under the Background of “Emerging Engineering Education”[J]. Journal of University of Science and Technology Beijing ( Social Sciences Edition), 2024, 40(4): 47-55. doi: 10.19979/j.cnki.issn10082689.2023120039

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YE Fei, WANG Haiou, LI Yanyan. Core Elements of Project-based Learning in Experimental Teaching under the Background of “Emerging Engineering Education”[J]. Journal of University of Science and Technology Beijing ( Social Sciences Edition), 2024, 40(4): 47-55. doi: 10.19979/j.cnki.issn10082689.2023120039

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Core Elements of Project-based Learning in Experimental Teaching under the Background of “Emerging Engineering Education”

doi: 10.19979/j.cnki.issn10082689.2023120039

Department of Materials Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, China

Received Date: 2023-12-08
Publish Date: 2024-08-01

Abstract

Abstract

The talent cultivation under “Emerging Engineering Education” has put forward higher goals in discipline vision, practical ability, and comprehensive quality. Experimental teaching plays a significant role in the talent cultivation of emerging engineering education. Project-based Learning (PBL) is conducive to comprehensively cultivating students’ practical ability and personal quality. However, the connotation of PBL in project design and experimental teaching practice still needs to be expanded. Based on the characteristics of engineering experiment teaching, this paper puts forward that six core elements of PBL, namely the project teaching method, should have six core elements such as openness, serialization, modularization, individuation, standardization, and informatization. Furthermore, taking the series of energy materials experiments of materials science and engineering specialty as an example, the teaching implementation process of experimental project design and preparation, management and guidance, evaluation and reflection is explained in detail by focusing on the three stages of experimental projects, i.e. preparation, implementation, and evaluation, and the guiding role of the above core elements in experimental teaching is expounded.
- project-based learning,
- experimental teaching,
- modularization,
- individualized education

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References

[1]	教育部. 关于加快建设高水平本科教育全面提高人才培养能力的意见:教高[2018]2号 [EB/OL]. (2018-09-17) [2023-12-08]. http://www.moe.gov.cn/srcsite/A08/s7056/201810/t20181017_351887.html.
[2]	叶民,孔寒冰,张炜. 新工科:从理念到行动[J]. 高等工程教育研究,2018(1):24-31.
[3]	刘宇雷,佘明. “新工科”背景下高校实验教学体系建设探索[J]. 实验技术与管理,2019,36(11):19-21,32.
[4]	韩文佳,杨桂花,陈嘉川,等. 新工科背景下工科专业实验教学体系的构建与实践[J]. 大学教育,2018(9):61-63.
[5]	张树永,张剑荣,陈六平. 化学类专业实验教学改革的进展、趋势与重点[J]. 大学化学,2016,31(9):1-6.
[6]	易晓华,高玲,王忠. 生物化学实验项目驱动式教学方法探索与实践[J]. 教育现代化,2019,6(93):37-38.
[7]	吕波,汪快兵,兰叶青,等. 满足本科生差异性发展要求的实验化学课程教学改革探索——以南京农业大学为例[J]. 中国农业教育,2019,20(1):87-93.
[8]	王海鸥,程化,叶飞,等. 锂离子电池全流程实验教学设计与实践[J]. 化学教育(中英文),2021,42(22):42-47.
[9]	王海鸥,叶飞,程化,等. 依托开放性综合实验培养创新型工科人才[J]. 中国现代教育装备,2020(7):112-114.
[10]	贺平. 项目教学法的实践探索[J]. 中国职业技术教育,2006(22):43-44.
[11]	袁晓静,邵永健,刘凡,等. 基于创新实践能力培养的项目教学法探索与实践[J]. 大学教育,2022(3):193-197.
[12]	LARMER J,MERGENDOLLER J & BOSS S. Setting the Standard for Project Based Learning:A proven Approach to Rigorous Classroom Instruction [M]. Alexandria,VA:Association for Supervision and Curriculum Development,2015.
[13]	BOSS S & LARMER J. Project Based teaching:How to Create Rigorous and Engaging Learning experiences [M]. Alexandria,VA:Association for Supervision and Curriculum Development,2018.
[14]	叶飞,廖成竹,章剑波等. 慕课与虚拟仿真深度融合的实验教学[J]. 北京科技大学学报(社会科学版),2022,38(1):67-72.
[15]	王海鸥,叶飞,程化,等. 新工科背景下材料学科分组式设计性实验教学的探索[J]. 教育现代化,2021,21(3):62-65.

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