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Vol. 1 No. 2 (2023)
International Conference on Science, Engineering & Technology

Articles

Exploring Projectile Motion with Tkinter: A Visual and Interactive Modeling Approach for Physics Classes

Published 2023-06-19

  • Ruziboyev Valijon Umarali ugli
    • ,
  • Khoshimov Husanboy Anvarjon ugli
    • ,
  • Kamolova Muhabbatkhon Muhiddin kizi

Abstract

This article explores the use of Tkinter, a Python module for creating graphical user interfaces, in modeling the motion of an object thrown at an angle to the horizon. Projectile motion is a fundamental concept in physics, and Tkinter offers an effective platform for visually representing and simulating this type of motion. The article highlights the intuitive graphical representation provided by Tkinter, allowing users to create interactive graphs that display the trajectory of the object. It emphasizes the interactive parameter control feature, enabling students to manipulate the angle and initial velocity and observe the resulting changes in the trajectory. Real-time analysis and experimentation are facilitated through dynamic updates of the graph, encouraging students to explore different scenarios and deepen their understanding of projectile motion. The integration of mathematical models into Tkinter enhances students' comprehension of the underlying physics principles. Tkinter creates an educational and engaging environment, fostering curiosity, critical thinking, and problem-solving skills. Its ease of use and compatibility make it a valuable tool for physics classes, providing students with a visual and interactive learning experience. The article concludes by emphasizing the benefits of Tkinter in modeling projectile motion and its potential for enhancing physics education.

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References

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