PROBLEM-BASED SIMULATION OF PHYSICAL EXPERIMENTS: COGNITIVE MOTIVATION, HYPOTHESIS FORMATION, AND THE STRUCTURE OF MODELLING TASKS

Authors

  • Eshtemirov Akhror Nurmakhmatovich Shahrisabz State Pedagogical Institute, Head of the Department of Natural Sciences

Keywords:

problem-based learning, physical experiment simulation, cognitive motivation, hypothesis formation, problem situation, digital modelling, Makhmutov, thinking paradox, science education.

Abstract

Problem-based learning (PBL) and physical experiment simulation are two of the most widely recommended pedagogical approaches in science education, yet their integration in instructional practice remains theoretically underdeveloped. This paper examines the conditions under which problem-based organisation of learning activity generates the cognitive motivation necessary for productive physical experiment simulation, and proposes a structured framework for the design of problem-based simulation tasks.

References

Makhmutov M.I.. Problemnoe obuchenie [Problem-Based Teaching]. Moscow: Pedagogika. 368 p.

Wieman C.E., Perkins K.K., Adams W.K. Oersted Medal Lecture 2007: Interactive simulations for teaching physics. American Journal of Physics, 76(4), 393–399. DOI: 10.1119/1.2815365.

Gayratovich, E. N. (2019). USING VISUAL PROGRAM TECHNOLOGY METHODS IN ENGINEERING EDUCATION. European Journal of Research and Reflection in Educational Sciences Vol, 7(10).

Gayratovich, E. N. (2021). SPECIFIC ASPECTS OF EDUCATIONAL MATERIAL DEMONSTRATION ON THE BASIS OF VISUAL TECHNOLOGIES. International Engineering Journal For Research & Development, 6, 3-3.

G‘ayratovich, E. N. (2022). It Is A Modern Educational Model Based On The Integration Of Knowledge. Eurasian Scientific Herald, 5, 52-55.

Gayratovich, Ergashev Nuriddin. “A MODEL OF THE STRUCTURAL STRUCTURE OF PEDAGOGICAL STRUCTURING OF EDUCATION IN THE CONTEXT OF DIGITAL TECHNOLOGIES”. American Journal of Pedagogical and Educational Research 13 (2023): 64-69.

Shodiyev Rizamat Davronovich, and Ergashev Nuriddin Gayratovich. “ANALYSIS OF EXISTING RISKS AND METHODS OF COMBATING THEM IN CLOUD TECHNOLOGIES”. American Journal of Pedagogical and Educational Research, vol. 18, Nov. 2023, pp. 190-8, https://www.americanjournal.org/index.php/ajper/article/view/1522.

Ergashev Nuriddin Gayratovich. (2025). METHODOLOGICAL SUPPORT OF TRAINING STUDENTS IN A DIGITAL EDUCATIONAL ENVIRONMENT IN PEDAGOGICAL PROCESSES ON THE BASIS OF A HIERARCHICAL APPROACH. American Journal of Pedagogical and Educational Research, 34, 76–81. Retrieved from https://www.americanjournal.org/index.php/ajper/article/view/2796

Shadiev Rizamat Davrаnovich, & Ergashev Nuriddin Gayratovich. (2024). DIDACTIC CONDITIONS FOR TRAINING TEACHERS IN A DIGITAL EDUCATIONAL ENVIRONMENT BASED ON A HIERARCHICAL APPROACH. European International Journal of Pedagogics, 4(12), 175–181. https://doi.org/10.55640/eijp-04-12-39.

Downloads

Published

2026-05-12

How to Cite

Eshtemirov Akhror Nurmakhmatovich. (2026). PROBLEM-BASED SIMULATION OF PHYSICAL EXPERIMENTS: COGNITIVE MOTIVATION, HYPOTHESIS FORMATION, AND THE STRUCTURE OF MODELLING TASKS. Ethiopian International Multidisciplinary Research Conferences, 3(2), 120–123. Retrieved from https://eijmr.org/conferences/index.php/eimrc/article/view/2239

Issue

Vol. 3 No. 2 (2026): Ethiopian International Multidisciplinary Research Conferences

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.