Fractal theoryFractal theory studies patterns that repeat at different scales, revealing intricate and self-similar structures found in nature and mathematics. It explores the concept of self-similarity, where a smaller part of an object resembles the larger whole. Fractal theory has applications in various fields, including computer graphics, data compression, image processing, and modeling natural phenomena. It provides a way to mathematically describe and generate complex shapes and patterns, offering insights into the underlying principles of complexity and the inherent beauty of natural forms. studies patterns that repeat at different scales, revealing intricate and self-similar structures found in nature and mathematics. It explores the concept of self-similarity, where a smaller part of an object resembles the larger whole. Fractal theoryFractal theory studies patterns that repeat at different scales, revealing intricate and self-similar structures found in nature and mathematics. It explores the concept of self-similarity, where a smaller part of an object resembles the larger whole. Fractal theory has applications in various fields, including computer graphics, data compression, image processing, and modeling natural phenomena. It provides a way to mathematically describe and generate complex shapes and patterns, offering insights into the underlying principles of complexity and the inherent beauty of natural forms. has applications in various fields, including computer graphics, data compression, image processing, and modeling natural phenomena. It provides a way to mathematically describe and generate complex shapes and patterns, offering insights into the underlying principles of complexity and the inherent beauty of natural forms.