Friday, October 21, 2005

Man·del·brot set (män'dəl-brŏt') n.
The set of complex numbers C for which the iteration zn+1 = zn2 + C produces finite zn for all n when started at z0 = 0. The boundary of the Mandelbrot set is a fractal.
[After Benoit B. Mandelbrot (born 1924), Polish-born American mathematician.]
Draw and learn about Mandelbrots online.
Learn more about Mandelbrots with the Mandelbrot Set Explorer

I have wondered about infinity for a long time. How do you explain such a concept. Where do lines go? Where they start and end is as much an artistic puzzle as it is a mathematical one. At my school students learn to understand the concept of lines reaching to infinity by symbolically unrolling a string in both directions at once. No one ever explained math to me that way. However, my mom and dad are artists as well as teachers and so I learned a lot about vanishing points and perspective when I was very young. Line really is about a journey.

I like these fractal images because they embrace a marriage of math, science, and art in this way. Many of the images also remind me of underwater scenes, images of life under a microscope, or a sense of a universe seen from far away. Line travels from the smallest centers of being and imagination to the greatest landscapes and mindescapes we can create. What a beautiful thing possibility is. I wish that the people involved in the teacher's strike right now will find a concrete vision of education that embraces the idea of journey to a healthy future while they strive to find solutions to the puzzles ever evolving in complexity around the province.


At 9:58 PM, Blogger Hollertronix said...

Fractals are neat i've seen them before. Cool stuff!

At 8:10 PM, Blogger Chirtie said...

I love fractal images too! Anyone who says abstract art has no basis in nature/ reality has never seen a fractal image!

Great blog so far! :)


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