参考文献:(上下滑动可浏览)1.何善亮.如何在科学教育中开展STEM教育——基于美国《Science Fusion》教材工程技术教育特色的思考[J].教育理论与实践,2019,39(32):42-46.
2.杨开城,窦玲玉,李波等. 2020. STEM教育的困境及出路[J]. 现代远程教育研究(2):20-28.
3.唐小为,王唯真.整合STEM发展我国基础科学教育的有效路径分析[J].教育研究,2014,35(09):61-68.
4.教育部.义务教育科学课程标准(2022年版)[M].北京师范大学出版社,2022:5.
5.张华夏,张志林.从科学与技术的划界来看技术哲学的研究纲领[J].自然辩证法研究究,2001,(2):31-36.
6.俞胜,洪晓楠.论波兰尼的科学与技术划界观[J].自然辩证法研究,2003(04):18-21.
7.迈克尔·波兰尼∙个人知识:迈向后批判哲学[M].许泽民译.贵州人民出版社,2000:280.
8.亚里士多德全集(第7卷)[M](苗力田 译).北京:中国人民大学出版社,1996:3.
9.Richards, S. Philosophy and Sociology of Science[M].Basil Blackwell, 1985: 126.
10.韩彩英.论科学与技术伦理的论域区隔和理论取向问题——兼与李文潮博士商榷[J].科学学研究,2011,29(11):1753-1759.
11.Hirst, P.H.Liberal education and the nature of knowledge. In P.H. Hirst, Knowledge and the curriculum: a collection of philosophical papers. London: Routledge and Kegan Paul,1974: 44.
12.McComas, W. F. & Burg,S. R. A Critique of “STEM” Education: Revolution-in-the-Making, Passing Fad, or Instructional Imperative? [J].Science & Education, 2020,(29):805–829.
13.National Research Council. STEM integration in K–12 education: status, prospects, and an agenda for research. Washington, DC: National Academies Press,2014:14.
14.McComas, W. F. & Burg,S. R. A Critique of “STEM” Education: Revolution-in-the-Making, Passing Fad, or Instructional Imperative? [J].Science & Education,2020,(29):805–829.
15.McComas, W. F. & Burg,S. R. A Critique of“STEM”Education: Revolution-in-the-Making, Passing Fad, or Instructional Imperative? [J].Science & Education,2020,(29):805–829.
16.Osborne J. Teaching Scientific Practices: Meeting the Challenge of Change[J]. Journal of Science Teacher Education,2014, (25):177-196.
17.Richard Menary. Pragmatism and the Pragmatic Turn in Cognitive Science[M]. Cambridge MA: MIT Press,2016:210-236.
18.宿庆,张文兰,夏小刚,李莉. 服务于人才培养的STEM教育—— 《制定成功路线:美国STEM教育战略》的解读与启示[J]. 现代教育技术,2020,(01):114-120.
19.唐小为,王唯真.整合STEM发展我国基础科学教育的有效路径分析[J].教育研究,2014,35(09):61-68.
20.Bao,L.,Koenig,K.Xiao,Y.et al.Theoretical model and quantitative assessment of scientific thinking and reasoning[J]. Physical Review Physics Education Research,2022,(1):1-33.
21.李永胜.科学思维、技术思维与工程思维的比较研究[J].创新,2017,⑷:28-31.
22.蔡铁权. 从知识观解读课程三维目标[J]. 全球教育展望, 2005, 34,(9):38-41.
23.杜文彬,刘登珲.美国整合式 STEM 教育的发展历程与实施策略——与 Carla Johnson教授的对话[J].全球教育展望,2019,(10):3-12.
24.Osborne J. Teaching Scientific Practices: Meeting the Challenge of Change[J]. Journal of Science Teacher Education,2014, (25):177-196.
25.裴新宁.学习科学与科学教育的共同演进——与国际学习科学学会前主席马西娅·林教授对话[J].开放教育研究,2018,(4):4-12.
26.Chinn,C.A. & Malhotra,B.A. Epistemologically Authentic Inquiry in Schools: A Theoretical Framework for Evaluating Inquiry Tasks[J]. Science Education, 2002,(86):175-218.
27.Osborne J. Teaching Scientific Practices: Meeting the Challenge of Change[J]. Journal of Science Teacher Education,2014,(25):177-196.
28.肖思汉,William A.Sandoval.科学课堂上的“探究”与“实践”有何不同[J].课程·教材·教法,2017,(12):110-115.
29.唐小为,李佳,宋乃庆.课堂科学辩论实施探究——以中美中小学科学课堂案例比较分析为例[J].课程.教材.教法, 2012,(5):105-110.
30.郁波主编.STC课程实验——基于实践的课程研究[M].教育科学出版社,2013:203.
31.尼斯贝特,R.思维的版图[M].中信出版社,2003:29-48.
32.李醒民.中国现代科学思潮[M].科学出版社,2004:6.
33.Nasir, N.S.,& Hand,V. Exploring sociocultural perspectives on race, culture and learning[J]. Review of Educational Research, 2006,(76):449-475.
34.Gay,G.Teaching to and through Cultural Diversity[J]. Curriculum Inquiry,2013,(43):49-70.
35.Warren, B., Ballenger, C., Ogonowski, M., et al. Rethinking diversity in learning science: the logic of everyday sense-making[J].Journal of Research in Science Teaching, 2001,(38):529-552.
36.张军霞.科学教材编写应回到原点[J].课程·教材·教法,2022,(6):147-153.
37.张红霞、吕林海.杜威教育哲学在全球化时代的发展[J]. 教育发展研究, 2013,(17): 64-71.
38. 杜文彬,刘登珲.美国整合式 STEM 教育的发展历程与实施策略——与 Carla Johnson教授的对话[J].全球教育展望,2019,(10):3-12.