prosthetic knowledge
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HD Microscopic Zoomable Photo Of Weathered Euro Coin
An interactive photo at New Scientist lets you intimately examine the wear and scratches of an average coin - by Sumit Paul-Choudhury:
The euro has taken a bit of a battering of late - and not just in the financial markets. As you can see for yourself above, the surface of a 1-cent coin, while smooth to the naked eye, is pitted and scarred when viewed through a powerful microscope.
To create this image, artist Martin John Callanan, a fellow at University College London based in the Slade Centre for Electronic Media in Fine Art, worked with Ken Mingard, Petra Mildeova and Eric Bennett at the UK’s National Physical Laboratory in London. The team used an optical microscope to create images of the lowest-denomination coins used in Australia, Burma, Swaziland and Chile, as well as the transnational euro. They took standard coins that had been in circulation and left the microscope to make 4000 tiny exposures overnight. It then took three days of processing to stitch these images together to create each final, 400-million-pixel version …
The coin images are part of an ongoing series called The Fundamental Units in which Callanan explores “the atoms that shape the global economy”. Ultimately, the series will encompass all 166 of the world’s active currencies that use coins. The first five are on display as 1.2-by-1.2-metre prints, along with more of Callanan’s works, at the Galleria Horrach Moyà in Mallorca, Spain, until 17 January 2013.
You can explore the interactive photo over at New Scientist here
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Last Lights On - Mandelbrot fractal zoom to 6.066 e228 (2^760) by teamfresh
A likeable Mandelbrot fractal zoom - if you havn’t seen one before, this one is worthwhile - great colours and great path (I’m loving 3 minutes 12 seconds in). It took 2 days to set up, and 6 months to render!
According to the creator:The final magnification of the Mandelbrot fractal is 6.066e+228 (2760)
want some perspective?
1E6 Vancouver Island
1E9 Jupiter’s radius
1E12 Earth’s orbit
1E18 distance to Alpha Centauri
1E21 Milky Way galaxy
1E30 large doesn’t cover it!
1E42 size of electron to the universe
1E228 incomprehensibly big…but we did it!
… If you were actually traveling into the fractal, you would be moving faster than the speed of light. -
The Mandelbrot set (in HD video on YouTube) by NeitSotm
It took about 5 weeks to render this video in full HD (60fps) using my own software. I wish I could zoom in much deeper, but It would take ages to render. =/
I used smooth and logarithmic colouring. The colour scheme was inspired by Ultrafractal’s default gradient. I chose this point to zoom into: http://en.wikipedia.org/wiki/File:Man…
x = -0.743643887037151
y = 0.131825904205330 -
Mandelbrot Fractal Set Trip To e214 HD by teamfresh
The Mandelbrot fractal set zoomed in to the size bigger than the universe!
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Zoomed Tables by sparktography
