ATTITUDES OF PRIMARY SCHOOL TEACHERS ABOUT THE IMPORTANCE, PLACE AND ROLE OF MODERN TECHNOLOGY AND MATHEMATICS IN STEAM EDUCATION

Uzdanica XIX (Vanredni broj) (2022), (str. 183-197)

AUTOR(I): Olivera D. Cekić-Jovanović, Nenad Z. Gajić

E-ADRESA: o.cekicjovanovic@gmail.com

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DOI: 10.46793/Uzdanica19.S.183CJ

SAŽETAK: 

The natural connection between mathematics, natural and technical sciences should be present and visible through very intense correlations between the respective school subjects. In many educational systems, the field of STEAM is recognized, which implies a holistic approach and integration of natural sciences (biology, chemistry, physics, physical ge- ography), technical and engineering sciences (electrical engineering, mechanical engineering, construction, hardware and software engineering), art and mathematics. The aim of the paper is to examine the views of elementary school teachers (N = 160) about the importance, place and role of modern technology and mathematics in STEAM education. The study discussed the basic theoretical starting points, possibilities and challenges of applying modern technology and mathematics in integrative STEAM teaching. Also, teachers’ attitudes were examined us- ing the research survey technique, using as a research instrument an anonymous questionnaire created in the Google Forms web application as a five-point Likert-type scale. The research results confirm the positive attitudes of teachers about the importance of modern technology and mathematics in STEAM education. Also, the research results confirm that primary school teachers have positive attitudes toward and often apply modern technology and mathematics in STEAM classes for the preparation of materials, research activities and individualization of the teaching process. However, to a lesser extent, they attend professional development seminars focused on the application of modern technology in STEAM integrative teaching; there is a possibility to improve this important segment of education.

KLJUČNE REČI:

STEAM education, integrative approach, teachers’ attitudes, educational technology, mathematics, Serbia.

LITERATURA:

  • Adamov, Olić, Halaši (2014): J. Adamov, S. Olić, T. Halaši, Multidisciplinarni učenički projekti ‒ primer integrisanja sadržaja u okviru teme „Zdrava ishranaˮ, u: S. Cvje- tićanin (ur.), Miniprojekti u nastavi integrisanih prirodnih nauka i matematike 2, Sombor: Pedagoški fakultet.
  • Bošković, Lalić, Milić (2020): D. Bošković, D. Lalić, B. Milić, Upotreba tehnologije u edukaciji, Novi Sad: Fakultet tehničkih nauka.
  • Brackley, Howell (2019): S. Brackley, J. Howell, The Next Chapter in the STEM Education Narrative: Using Robotics to Support Programming and Coding, Australian Journal of Teacher Education, IV/4, 51‒64.
  • Vilotijević, Vilotijević (2016): M. Vilotijević, N. Vilotijević, Modeli razvijajuće na- stave II, Beograd: Univerzitet u Beogradu, Učiteljski fakultet.
  • Gunčaga, Kopczynski (2019): J. Gunčaga, T. Kopczynski, Supporting Mathematical and Digital Competences Useful for STEM Education. E-Learning and STEM Education, Scientific Editor Eugenia Smyrnova-Trybulska, 409‒419.
  • Gutschank (2019): J. Gutschank, Coding in STEM Education, Berlin, Germany: Science on Stage Deutschland e.V.
  • Drobnjak (2007): N. Drobnjak, Integrativna nastava, Obrazovna tehnologija, 1‒2, Beograd: Učiteljski fakultet, 81‒91.
  • Đorđević, Kopas-Vukašinović, Mihajlović (2019): M. Đorđević, E. Kopas-Vukašino- vić, A. Mihajlović, Teaching competencies of pre-service primary school teachers to use an integrated approach in teaching science, art and mathematics, In: V. Savić, O. Cekić-Jovano- vić (Eds.), Professional competences for teaching in the 21st century, 173–186.
  • Zakon o osnovnom obrazovanju i vaspitanju, Službeni glasnik RS, br. 55/2013, 101/2017, 10/2019 i 27/2018 ‒ dr. Zakon.
  • Jovanović, Kovčić (2017): M. Jovanović, V. Kovčić, Contemporary Society Chal- lenges of Integrative Teaching. Sinteze, 11, 39‒71.
  • Lipkovski (2020): A. Lipkovski, O značaju nastave matematike, Nastava matema- tike, LXV/3-4, 61–66.
  • Marić (2020): F. Marić, Matematika u obrazovanju budućih IT stručnjaka, Nastava matematike, LXV/3-4, 67–75.
  • Maass, Geiger, Ariza, Goos (2019): K. Maass, V. Geiger, M. R. Ariza, M. Goos, The Role of Mathematics in interdisciplinary STEM education, ZDM Mathematics Edu- cation, 51, 869–884. Retrieved in November 2022 from https://link.springer.com/arti-cle/10.1007/s11858-019-01100-5.
  • Nemirovsky (2013): R. Nemirovsky, Playing Mathematical Instruments: Emerging Perceptuomotor Integration with an Interactive Mathematics Exhibit, Journal for Research in Mathematics Education, XLIV/2, 372‒415.
  • Pravilnik o planu nastave i učenja za prvi ciklus osnovnog obrazovanja i vaspitanja, Službeni glasnik, 2017, 2018, 2019a, 2019b, 2020.
  • Pravilnik o standardima kompetencija za profesiju nastavnika i njihovog profesion- alnog razvoja (2011): Službeni glasnik RS ‒ Prosvetni glasnik, br. 5.
  • Sanders (2009): M. Sanders, STEM, STEM Education, STEM Mania, Technology Teacher, 68, 20‒26.
  • Sevimli, Ünal (2022): E. Sevimli, E. Ünal, Is the STEM Approach Useful in Teach- ing Mathematics? Evaluating the Views of Mathematics Teachers, European Journal of STEM Education, VII/1, 1‒11. Retrieved in November 2022 from https://files.eric.ed.gov/fulltext/EJ1341387.pdf.
  • Strutynska, Umryk, (2019): O. Strutynska, M. Umryk, Learning Startups as a Pro- ject Based Approach in STEM Education. E-Learning and STEM Education, Scientific Editor Eugenia Smyrnova-Trybulska, 529‒555.
  • Spremić (2007): A. Spremić, Integrativna nastava, Obrazovna tehnologija, 3, 36‒48. Stohlmann, Moore, Roehrig (2012): M. Stohlmann, T. J. Moore, G. H. Roehrig, Considerations for Teaching Integrated STEM Education, Journal of Pre-College Engineering Education Research, II/1, 49-63.
  • Strategija razvoja obrazovanja u Srbiji do 2020. godine (2012): Službeni glasnik RS, br. 107.
  • Strategija razvoja obrazovanja i vaspitanja u Republici Srbiji do 2030. godine (2021): Službeni glasnik RS, br. 63.
  • Strategija razvoja veštačke inteligencije u Republici Srbiji za period 2020‒2025. godine, Službeni glasnik RS, br. 96/19.
  • Strategija naučnog i tehnološkog razvoja Republike Srbije za period od 2021. do 2025. godine „Moć znanjaˮ (2021): Službeni glasnik RS, br.10.
  • Strategija razvoja digitalnih veština u Republici Srbiji za period od 2020. do 2024. godine, Službeni glasnik RS, br. 21/20.
  • Cekić-Jovanović, Mihajlović (2018): O. Cekić-Jovanović, A. Mihajlović, Integrativ- ni pristup u pedagoško-metodičkim idejama Sretena M. Adžića, Uzdanica, XV/2, 95–107. Cekić-Jovanović, Đorđević, Miletić (2018): O. Cekić-Jovanović, M. Đorđević, a. Miletić, Possibility of Improving Educational Activities at Universities by Applying In- tegrative Approach within Multimedia Programmed Teaching, Innovative Teaching Models in the System of University Education: Opportunities, Challenges and Dilemmas, Jagodina: University of Kragujevac, Faculty of Education; Koper: University of Primorska, Faculty of Education, 49‒61.
  • Wei, Maat, (2020): W. K. Wei, S. M. Maat, The Attitude of Primary School Teach- ers towards STEM Education, TEM Journal, 9(3), 1243‒1251. Retrieved in November 2022 from https://www.temjournal.com/content/93/TEMJournalAugust_1243_1251.pdf.