Eğitimin Dijitalleşmesinde STEM Öğreniminin Uygulanmasına İlişkin Didaktik Öneriler
75 102
Anahtar Kelimeler:
STEM education, future teachers, didactic guidelines, pedagogical conditions, digitalization of education.Özet
The ways of introducing digital STEM learning into school practice are one of the elements of digital pedagogy which supplements and develops pedagogical problems by increasing the efficiency of their solution through creating digital educational environments. Currently, digital STEM learning is one of the pressing issues. This is due to the fact that there is still no clear unambiguous definition of concepts related to STEM education, methods of its application are not fully studied yet, and most teachers lack STEM competencies. At present, there are two occurrences of STEM-approach: integration of school science subjects and separate study of school science subjects. In our country, the second option is used, which implies implementation of STEM approach by using interdisciplinary content and interdisciplinary training tasks. In this situation, the organization of STEM lessons and STEM projects is of crucial significance. Therefore, the article discusses didactic guidelines for applying STEM approaches presented in a number of works, as well as models of didactic projects for STEM approach are given in the form of recommendations. The study identified didactic elements of the STEM approach in the context of digital education, as well as relevant didactic guidelines and pedagogical conditions for creating an educational environment for their implementation. All this allows us to conclude that when implementing STEM approach, the mentioned didactic guidelines and special training of future teachers not only provide them with the necessary knowledge and skills, but also develop essential skills that are necessary for their further development, preparing them for continued learning and adapting to the ever-evolving demands of education.
Referanslar
ПАЙДАЛАНЫЛҒАН ӘДЕБИЕТТЕР ТІЗІМІ
Rodger W. Bybee. The case for STEM education. Challenges and opportunities. – Arlington, Virginia: NSTA Press, 2013. – 116 p. 2. Breiner J.M., Harkness S.S., Johnson C.C., Koehler C.M. What is STEM? A discussion about conceptions of STEM in education and partnerships // School Science and Mathematics. – 2012. – №112(1). – Р. 3–11. https:// doi.org/ 10. 1111/j. 1949-8594. 2011. 00109.x 3. Miller-Idriss C., Hanauer E. Transnational higher education: offshore campuses in the Middle East // Comparative Education. – 2011. – №47(2). – Р. 181–207. https:// doi.org/10.1080/03050 068.2011.553935
Martin-Paez Tobias, Aguilera D., Pelares-Palacios FJ, Vilchez-Gonzalez JM. What we are talking about when we talk about STEM education? A review of literature // Science Education. – 2019. – Volume 103, Issue 4. – Р. 715–739. https://doi.org/10/1002/sce.21522
Ten 21st-century Skills Every Student Needs. [Электронды ресурс]. URL: https://www.weforum.org/agenda/2016/03/21st-century-skills-future-jobs-students/ (қаралған күні 15.12.2023)
Science on Stage. [Электронды ресурс]. URL: https://www.science-on-stage.eu/ (қаралған күні 20.12.2023) 7. Мыңбаева М.Ө., Майгельдиева Ш.М., Исаева Г.Б. Қазақстанда STEAM білім беру әдістемесін дамытуда «Білім керуені» ұйымының тәжірибесі // Ясауи университетінің хабаршысы. – 2023. –№4(130). – Б. 361–376. https://doi.org/10.47526/2023-4/2664-0686.29
Сологуб Н.С., Аршанский Е.Я. STEAM-компетентность как интегративное качество современного педагога // Веснік Віцебскага дзяржаўнага ўніверсітэта імя П.М. Машэрава. – 2022. – №1(114). – C 54–65. 9. Абдрахманова Х.К., Кудайбергенова Қ.Б. Мектеп мұғалімдерінің STEM-білім беру әдісімен жаратылыстану пәндерін оқытуға дайындығы // ҚР Ұлттық ғылым академиясы Хабаршысы. – 2023. – №5(405). – Б. 7–19. https://doi.org/10.32014/2023.2518-1467.572
Рождественская Л. Методические рекомендации по внедрению SТЕАМ-технологий в образовательную практику. [Электронды ресурс]. URL: nsportal.ru (қаралған күні 20.12.2023)
Методические рекомендации по внедрению STEM образования. – Астана: Национальная академия образования им. И. Алтынсарина, 2017. –162 с.
«2023–2024 оқу жылында Қазақстан Республикасының орта білім беру ұйымдарындағы оқу-тәрбие процесінің ерекшеліктері туралы» әдістемелік нұсқау хат. – Астана: Ы. Алтынсарин атындағы ҰБА, 2023. – 104 б. 13. Ramankulov Sh., Choruh A., Polatuly S. STEAM technology as a tool for developing creativity of students: on the example of a school physics course // Ясауи университетінің хабаршысы. – 2022. –№4(126). – Б. 200–211. https://doi.org/10.47526/2022-4/2664-0686.17
Гремалски А. Методическое руководство по внедрению методов компьютерного обучения. – Кишинэу, 2021. – 51 с. [Электронный ресурс]. URL: chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://www.undp.org/sites/g/files/zskgke326/files/migration/md/GHID-RU_pedagogic.pdf (дата обращения 17.11.2023)
REFERENCES
Rodger W. Bybee. The case for STEM education. Challenges and opportunities. – Arlington, Virginia: NSTA Press, 2013. – 116 p.
Breiner J.M., Harkness S.S., Johnson C.C., Koehler C.M. What is STEM? A discussion about conceptions of STEM in education and partnerships // School Science and Mathematics. – 2012. – №112(1). – R. 3–11. https:// doi.org/ 10. 1111/j. 1949-8594. 2011. 00109.x
Miller-Idriss C., Hanauer E. Transnational higher education: offshore campuses in the Middle East // Comparative Education. – 2011. – №47(2). – R. 181–207. https:// doi.org/10.1080/03050 068.2011.553935
Martin-Paez Tobias, Aguilera D., Pelares-Palacios FJ, Vilchez-Gonzalez JM. What we are talking about when we talk about STEM education? A review of literature // Science Education. – 2019. – Volume 103, Issue 4. – R. 715–739. https://doi.org/10/1002/sce.21522
Ten 21st-century Skills Every Student Needs. [Electronic resource]. URL: https://www.weforum.org/agenda/2016/03/21st-century-skills-future-jobs-students/ (date of access 15.12.2023)
Science on Stage. [Electronic resource]. URL: https://www.science-on-stage.eu/ (date of access 20.12.2023)
Mynbaeva M.O., Maigeldieva Sh.M., Isaeva G.B. Qazaqstanda STEAM bіlіm beru adіstemesіn damytuda «Bіlіm keruenі» uiymynyn tajіribesі [In developing the methodology for providing STEAM education in Kazakhstan, the experience of the 'Bilim Kereyeni' organization is crucial] // Iasaui universitetіnіn habarshysy. – 2023. –№4(130). – B. 361–376. https://doi.org/10.47526/2023-4/2664-0686.29 [in Kazakh]
Sologub N.S., Arshanskiy E.Ia. STEAM-kompetentnost kak integrativnoe kachestvo sovremennogo pedagoga [STEAM competency as an integrative quality of a modern educator] // Vesnіk Vіcebskaga dziarzhainaga unіversіteta іmia P.M. Mashierava. – 2022. – №1(114). – C. 54–65. [in Russian]
Abdrahmanova H.K., Kudaibergenova Q.B. Mektep mugalіmderіnіn STEM-bіlіm beru adіsіmen jaratylystanu panderіn oqytuga daiyndygy [The readiness of school teachers to implement subjects created through STEM education methodology] // QR Ulttyq gylym akademiasy Habarshysy. – 2023. – №5(405). – B. 7–19. https://doi.org/10.32014/2023.2518-1467.572 [in Kazakh]
Rojdestvenskaia L. Metodicheskie rekomendacii po vnedreniu STEAM-tehnologiy v obrazovatelnuiu praktiku [Methodological recommendations for the implementation of STEAM technologies in educational practice]. [Electronic resource]. URL: nsportal.ru (date of access 20.12.2023) [in Russian]
Metodicheskie rekomendacii po vnedreniu STEM obrazovania [Methodological recommendations for implementing STEM education]. – Astana: Nacionalnaia akademia obrazovania im. I. Altynsarina, 2017. – 162 s. [in Russian]
«2023–2024 oqu jylynda Qazaqstan Respublikasynyn orta bіlіm beru uiymdaryndagy qқu-tarbie procesіnіn erekshelіkterі turaly» adіstemelіk nusqau hat [Guidelines on the specifics of the educational process in the middle-level education institutions of the Republic of Kazakhstan for the academic year 2023–2024]. – Astana: Y. Altynsarin atyndagy UBA, 2023. – 104 b. [in Kazakh]
Ramankulov Sh., Choruh A., Polatuly S. STEAM technology as a tool for developing creativity of students: on the example of a school physics course // Iasaui universitetіnіn habarshysy. – 2022. – №4(126). – B. 200–211. https://doi.org/10.47526/2022-4/2664-0686.17
Gremalski A. Metodicheskoe rukovodstvo po vnedreniu metodov kompiuternogo obuchenia [Methodological guide for implementing computer-based teaching methods]. – Kishinieu, 2021. – 51 s. [Electronic resource]. URL: chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://www.undp.org/sites/g/files/zskgke326/files/migration/md/GHID-RU_pedagogic.pdf (date of access 17.11.2023) [in Russian]