Yuklab olish / Download (English)
Опубликован
2023-12-30
Раздел
Articles
Как цитировать
METHODOLOGY FOR THE DEVELOPMENT OF TECHNICAL CREATIVITY OF STUDENTS BASED ON THE STEAM APPROACH (USING THE EXAMPLE OF TEACHING PHYSICS).
Ochilova Ozoda Odilovna
Abdullaeva Shoira Isajanovna
Ключевые слова: Keywords: STEAM education, technical creativity, physics teaching, interdisciplinary learning, project-based learning.
Аннотация
Annotation: This article explores the development of technical creativity in
students through the integration of the STEAM (Science, Technology, Engineering,
Arts, and Mathematics) approach, with a focus on physics education. The methodology
discussed herein involves a comprehensive analysis of existing literature, followed by
the presentation of effective teaching methods, results from real-world applications,
and a discussion on the implications for fostering technical creativity. The article
concludes with insights into the significance of the STEAM approach in enhancing
students' creative thinking and provides suggestions for future research and
implementation.
Библиографические ссылки
References
Abrahams I, Millar R (2008) Does practical work really work? A study of the
effectiveness of practical work as a teaching and learning method in school
science. Int J Sci Educ 30 (14):
Braund M, Reiss M (2006) Towards a more authentic science curriculum: the
contribution of outof-school learning. Int J Sci Educ 28(12):1373–1388
Heck A, Ellermeijer AL (2009) Giving students the run of sprinting models. Am
J Phys 77 (11):1028–1038
Kearney M, Treagust DF (2001) Constructivism as a referent in the design and
development of a computer program using interactive digital video to enhance
learning in physics. Australas J Educ Technol 17(1):64–79
Ogborn J (2014) Curriculum development in physics: not quite so fast. In: Tasar
MF (ed) Proceedings of The World Conference on Physics Education. Pegem
Akademi, Istanbul, pp 39–48
Sokoloff DR, Laws PW, Thornton RK (2007) RealTime physics: active learning
labs transforming the introductory laboratory. Eur J Phys 28(3):S83–S94
