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A projection showcase

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If you've spent time hanging around with students, it's quite likely that you have had someone explain to you why the Mercator projection, which is the one seen in most standard world maps, is horrendously distorted and inflates the importance of wealthy northern European countries, Russia, Canada etc. over their less influential equatorial counterparts in Africa and South/Central America. This is true, at least to the extent that one should never use a Mercator map to compare areas of countries, or relative importance (if that's what you like to do). The problems with the standard map projection arise from the issue of translating a spherical surface to a flat one - you simply can't preserve shape, size and direction when doing this. An example: it's possible to draw a triangle on a sphere in which every angle is 90 degrees, by drawing directly between the very top, left and front of the sphere. Try drawing that on a flat piece of paper. Obviously, the best rep

Twisted Fantasy: Changing lives with the human genome

In Sam Raimi's Spider-Man , Peter Parker is bitten by a genetically enhanced 'Super Spider' while on a field trip to an egregiously unsafe gene laboratory (lock your spider boxes, kids) and falls unconscious soon after returning home groggy and ill. In the following few moments, we are treated to an exciting sequence that shows tiny spiders  crawling around inside his cells, and his DNA being cut and spliced in the process that turns him into the arachnid Avatar. This (and the following scenes of him grappling with his new abilities and, importantly, checking himself out in the mirror) is a lot of fun to watch, but viewers who have indulged themselves in high-school biology (and stopped after a couple of years, as I did) may at this point jump out of their seats, throw their Heelys at the TV screen and shout "Hang on, that's not how genes work! You can't meaningfully change your body after  you've been born just by editing your DNA!". Now, friends, t