Probably fractal geometry.
Fractal geometry has significantly influenced technology by providing tools for modeling complex, irregular structures found in nature, such as coastlines, clouds, and mountains. This has enhanced fields like computer graphics, where fractal algorithms are used to create realistic textures and landscapes in video games and simulations. Additionally, fractals have applications in telecommunications, improving signal processing and antenna design by optimizing bandwidth and efficiency. Overall, the principles of fractal geometry have led to advances in various technological domains, enabling more efficient and innovative solutions.
The Eiffel Tower exhibits fractal characteristics through its self-similar structure and repeated geometric patterns at various scales. The tower's design incorporates smaller arches and shapes that resemble the overall form, creating a sense of unity and complexity. This repetition of similar elements can be seen in its lattice-like iron framework, where the patterns are echoed at different sizes, embodying the essence of fractal geometry. Thus, while the Eiffel Tower is not a true fractal in the mathematical sense, it demonstrates fractal-like properties in its architectural design.
Johannes Kepler
Chuck Norris
The Fractal Geometry of Nature was created in 1982.
The ideas behind fractal geometry came out of work undertaken in the 19th century by mathematicians like Bernard Bolzano, Bernhard Riemann and Karl Weierstrass. They were studying functions which were continuous [everywhere] but not differentiable [almost anywhere]. The term "fractal" was first used by a modern mathematician called Benoit Mandelbrot.
Probably fractal geometry.
A fractal is a geometric shape that when zoomed in on, will look approximately the same as it did before. Fractal geometry is a more complex version of regular Euclidean geometry. Euclidean geometry included just circles, squares, triangles, hexagons, octagons and all other regular shapes. Fractal geometry is the study of fractals and all of its components. Fractal geometry, out of all of its other uses, is mainly used to describe every other shape possible that isn’t classified into regular Euclidean geometry. Although not many people know what a fractal is, they encounter them on a regular basis and fractals have many uses all of which are extremely overlooked by many people.
Benoit Mandelbrot
René Descartes developed analytic geometry
Benoît B. Mandelbrot[ is a French mathematician, best known as the father of fractal geometry
Fractal geometry has significantly influenced technology by providing tools for modeling complex, irregular structures found in nature, such as coastlines, clouds, and mountains. This has enhanced fields like computer graphics, where fractal algorithms are used to create realistic textures and landscapes in video games and simulations. Additionally, fractals have applications in telecommunications, improving signal processing and antenna design by optimizing bandwidth and efficiency. Overall, the principles of fractal geometry have led to advances in various technological domains, enabling more efficient and innovative solutions.
Robert J. MacG Dawson has written: 'Convex and fractal geometry' -- subject(s): Convex geometry, Fractals
They developed several kinds of mathematics, Astronomy, and geometry
Euclid
A point. It has zero dimensions. It has no length and no width - only a position.