USING 3D MOLECULAR STRUCTURE SIMULATION IN DEVELOPING CHEMISTRY COMPETENCE IN STUDENTS

Authors

  • Khalilov Sohibjon Shokir oglu Murodullayeva Gulida Rafiq qizi Author

Keywords:

simulation, 3D molecular structure, chemistry competence,

Abstract

The spatial structure of organic compounds (3D molecular structure) is an important tool in teaching organic chemistry. In this study, 16 3D molecular structures of hydrocarbons and chemical reaction simulations were developed and lesson plans for teaching the topic of alkenes were developed based on them. Teachers were given instructions on how to use these lesson plans, and tests were developed to assess students' chemistry competencies. The main objective of the study was to determine the impact of using 3D molecular structure simulations on the development of chemistry competencies in students. The research methodology was conducted with the participation of 30 students, who were divided into an experimental group and a control group. The results of the study showed the effectiveness of 3D molecular structure simulation, including: students' chemical competence increased, the transfer and application of spatial chemistry concepts to higher-level knowledge developed, and the possibilities for planning the nature and mechanisms of chemical reactions expanded. As a result, chemistry teachers can effectively use 3D molecular structure simulations in teaching topics such as atomic radius, bond length, and bond angle.

Author Biography

  • Khalilov Sohibjon Shokir oglu Murodullayeva Gulida Rafiq qizi

    Assistant, Urgut Branch of Samarkand State University named after Sharof Rashidov
    Student, Urgut Branch of Samarkand State University named after Sharof Rashidov

References

1. 1Abduqodirov, A. A. Ta’limda axborot-kommunikatsiya texnologiyalari. Toshkent: Fan,

2018.

2. Xolmatov, B. B. Elektron ta’lim resurslari va ularning didaktik imkoniyatlari.

Toshkent, 2019.

3. Tursunov, I. M. Multimedia texnologiyalarini ta’lim jarayonida qo‘llash.

Toshkent: Innovatsiya, 2020.

4. Rahimov, D. Sh. Kimyo fanini o‘qitishda virtual laboratoriyalardan foydalanish.

Toshkent: Fan va texnologiya, 2021.

5. Usmonov, N. A. Fanlarni o‘qitishda kompyuter modellashtirish texnologiyalari.

Toshkent, 2018.

6. Brünken, R., Plass, J. L., & Leutner, D. (2004). Assessment of cognitive load in multimedia

learning with dual-task methodology: Auditory load and modality effects. Instructional Science, 32,

115–132. https://doi.org/10.1023/B:TRUC.0000021812.96911.c5

7. Cam, H. V. (2018). Design self-study activities on chemistry subject to develop self-study

ability for high school students. Vietnam Journal of Education, 439, 38–44.

8. Cambridgesoft. (2021). Find and analyze scientific results. PerkinElmer.

https://perkinelmerinformatics.com/Products/Research/SignalsLead-Discovery

9. Casselman, M. D., Eichler, J. F., & Atit, K. (2021). Advancing multimedia learning for

science: Comparing the effect of virtual versus physical models on student learning about

stereochemistry. Science Education, 105(6), 1285–1314. https://doi.org/10.1002/sce.21675

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Published

2026-03-24

Issue

Vol. 3 No. 3.1 (2026): Materials of the Republican Scientific and Practical Conference on the topic "PROBLEMS AND SOLUTIONS OF IMPLEMENTING SCIENTIFIC RESEARCH INTO PRACTICE", held in collaboration with Namangan State University and the international scientific journal "UNIVERSAL"

Section

Articles

How to Cite

USING 3D MOLECULAR STRUCTURE SIMULATION IN DEVELOPING CHEMISTRY COMPETENCE IN STUDENTS. (2026). Universal International Scientific Journal, 3(3.1), 237-242. https://universaljournal.uz/index.php/uxij/article/view/168