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Mandelbrot set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena. Center coordinates: Real: -0.1673077, Imaginary: 1.0410714, Side Length: 0.001.
Fractal landscape. Mandelbrot set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Fractal landscape. Mandelbrot set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Fractal landscape. Mandelbrot set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Computer-generated model of a neon atom. The nucleus, at center, is too small to be seen at this scale and is represented by the flash of light. Surrounding the nucleus are the atom's electron orbitals: 1s (small sphere), 2s (large sphere) and 2p (lobed). The 2p orbitals are attenuated for clarity.
Computer-generated model of a neon atom. The nucleus, at center, is too small to be seen at this scale and is represented by the flash of light. Surrounding the nucleus are the atom's electron orbitals: 1s (small sphere), 2s (large sphere) and 2p (lobed). The 2p orbitals are attenuated for clarity.
Computer-generated model of a neon atom. The nucleus, at center, is too small to be seen at this scale and is represented by the flash of light. Surrounding the nucleus are the atom's electron orbitals: 1s (small sphere), 2s (large sphere) and 2p (lobed). The 2p orbitals are attenuated for clarity.
Computer-generated image derived from a fractal Set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Computer-generated image derived from a fractal Set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Computer-generated image derived from a fractal Set. Fractal geometry is used to derive complex shapes as are often found in nature. Complex patterns are produced by a series of repeated mathematical operations or mappings. Generated on a computer screen, fractals are used to create models for real-world non-linear phenomena.
Demonstrating the principle of parabolic reflection. The most common illustration of this principle is the auto headlight. In the ripple experiment a drop of water from an eye dropper is comparable to the auto headlight. Striking the water at the focus of the parabolic tank, it generates circular waves. When reflected from the parabolic side of the tank, the circular waves become straight waves analagous to the headlight's parallel beams.