MODELING OF HARMONIC OSCILLATORY MOTION IN SCHOOL PHYSICS CLASSES: THE INTEGRATION OF PHYSICS AND PYTHON SOFTWARE
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Annotatsiya
Physics education has traditionally relied on theoretical instruction, mathematical equations, and hands-on experiments to convey complex concepts such as harmonic oscillatory motion. This thesis explores a modern approach to teaching physics through the integration of Python software, emphasizing the modeling of harmonic oscillations in school physics classes.
The integration of Python, a versatile and accessible programming language, revolutionizes the teaching and learning of physics. This abstract explores the significance of this integration and its practical application. Python's capabilities enable students to engage with abstract physics concepts through interactive simulations and visualizations, bridging the gap between theory and practical experience.
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