Perfect Crystals Grown by Cancelling Out Gravity on Earth

willatnewscientist writes "Researchers in the Netherlands and Japan have found a way to grow perfect crystals in 'zero gravity' here on Earth. By exploiting the way a powerful magnet influences diamagnetic materials they have been able to grow protein crystals without the defects normally introduced as a result of gravity (The same trick has been used to levitate a frog before). Normally, such crystals are grown in space, such as aboard the International Space Station."

Re:Cost?

[richdun]

Ahem... from TFA:

"What's more, the technique will be faster and much cheaper than growing crystals in space, he says."

So at least they say it will be much cheaper.

Good science, bad headline

[viking80]

I write this comment as I sit in my gravity canceling chair, sipping a coke contained in a gravity canceling device called a glass. Even the keyboard is supported by a gravity canceling surface I call a table.

Re:One big problem.

[jd]

When you rotate something, provided it remains intact, you are changing the direction of all the particles constantly. This can be a good thing - you can create "artificial gravity" by spinning things up by using this method. Because more massive particles will have more inertia than lighter particles, it can also be used to separate things that are mixed together. This is how plasma is extracted from the other components in blood, for example. When things are loosely connected, there is also usually some dragging going on, which is why rapidly-spinning galaxies have a spiral shape. The extra distance the outside needs to travel is so great and the connection so weak that the arms are smeared backwards. For more tightly-connected things, there's usually some strain built up. Your computer's hard drive is probably spinning at 7200 revolutions per minute, which is equal to 120 times a second. The center of the spindle has a speed of zero feet per second. The outside of the drive is traveling at around 157 feet per second. That's not insignificant, although drives are built to easily withstand such stresses. I've seen many a hard drive fail due to head crashes and bearing failures, never deformed surfaces.

This is not to say that spinning couldn't be used to prepare certain materials under certain conditions. As I said, separation is a major use for spinning, and artificial gravity is another. Don't ever be put off by people saying that something can't be used for X because the odds are that it IS used for Y and will be used for Z once someone figures out what Z is. Asking questions like this is important, because that's when intuition usually gets converted into inspiration.