There are several examples of fractals, which are defined as portraying exact self-similarity, quasi self-similarity, or statistical self-similarity. While fractals are a mathematical construct, they are found in nature, too. Natural objects that are approximated by fractals to a degree include clouds, mountain ranges, lightning bolts, river water sheds, snow flakes, various vegetables (cauliflower and broccoli), animal coloration patterns, and in some cases -- agates.
Many cacti have fractal patterns.
So do tree limbs...
And ice crystals.....
And leaves....
And flowers.....
And river drainage patterns.....
Of course, a kaleidoscope is sort of a way to cheat the fractal creation process -- using mirrors.
One of the most intricate and beautiful images in all of mathematics is the Mandelbrot set, discovered by Benoit Mandelbrot in 1980. Most people within the mathematics community, and many people outside of the discipline, have seen this image and have marveled at its geometric intricacy.
The Mandelbrot set is a particular mathematical set of points, whose boundary generates a distinctive and easily recognisable two-dimensional fractal shape. The Mandelbrot set is generated by iteration. Iteration means to repeat a process over and over again. In mathematics this process is most often the application of a mathematical function. For the Mandelbrot set, the function involved is the simplest nonlinear function imaginable, namely x2 + c, where c is a constant. To iterate x2 + c, we begin with a seed for the iteration. This is a (real or complex) number.
Many agates also demonstrate fractal patterns.
Would the octopus be an instance of a fractal?
ReplyDeleteExcellent set. Well done.
ReplyDeletewhat did they use when doing these amazing fractal paintings ? natural colors ?
ReplyDelete