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MIT Scientists Demo 150 Ton Magnet For Plasma Research

Posted by timothy on from the limitless-free-energy-just-wait-a-few-months dept.

Dr.Luke writes "The dream of abundant fusion energy just got a step closer to reality. MIT scientists just demonstrated a mammoth 150 ton magnet that could be used to create powerful plasma container needed for a practical fusion power plant. The device produces a magnetic field 260,000 times stronger than that of Earth. Full story here."

5 of 56 comments (clear)

  1. I can see the quotes now... by stienman · · Score: 5, Funny

    Scientist, "Yeah, so, like, the fusion reaction can put out, you know, a lot of power - like 10,000 amps or so."

    Reporter, "And how much current does the one smaller magnet consume again?"

    Scientist, "Uh... 46,000 amps. But it's so cool! I mean, it glows and stuff!"

    ...

    3) Profit!

    -Adam

  2. Sign on the door by quintessent · · Score: 5, Funny

    Warning: Any metal objects in pockets will be confiscated without warning.

    --
    Donate background CPU time to fight cancer.
  3. Field of the earth is tiny... by Mt._Honkey · · Score: 5, Interesting
    The device produces a magnetic field 260,000 times stronger than that of Earth.
    I don't understand why the news always uses the field of the earth for these kinds of comparison. The earth's field is quite weak, barely enough to point a compas north. An old, weak refrigerator magnet, by comparrison, easily overpowers it from quite a distance. They would be better off using comparisons such as refirgerator magnets or MRI machines, something that people have more contact with and is stronger.

    On as side note about public ignorance about science, MRI (Magnetic Ressonanse Imaging) is really NMRI (Nuclear Magnetic Ressonanse Imaging), but because the public is so affraid of anything with the name Nuclear or Radiation or Commie in the name, the word Nuclear is always left off.


    Please forgive my spelling
    --

    Don't Bogart the fish sticks
  4. Meanwhile... by arban · · Score: 5, Funny

    Meanwhile, at the conclution of the 34th International Orienteering Competition, no winner could be determined and 5 teams are unaccounted for. Feared dead. Film at 11.

    --

    "You like Chinese food." -Fortune Cookie
  5. Re:A pulsed 13 Tesla magnet and its problems by caffeinated_bunsen · · Score: 4, Informative
    No. That's restating the problem. You don't have the understanding bit here. What is going on that will change the (I presume) I squared R losses in the magnet

    Quick bit of advice: Don't casually presume that you know more about the subject of the article than the PhDs who contributed to it. The whole point of a superconducting magnet is that R=0, so there is no I^2 R loss* in the magnet.

    But when you build a magnet like this, you can't calculate the magnetic force on every centimeter of superconducting wire in the whole thing. You also can't make the wire stay precisely where you put it. As the field builds up the first time, all the wires move around a little bit, due to the very large magnetic forces on them. This wastes some of the energy put into the field. As you cycle the field, the wires gradually move toward an equilibrium and the mechanical energy loss goes to zero.

    I'm sure there are other factors, but this is the only one that I can remember off the top of my head. In fact, I know that there's more than this to the problem, because this is a well-known phenomenon that everybody who designs high-field magnets has dealt with. If it were as simple as this, they never would have mentioned it in the article.


    * Of course, there are some losses in type II superconductors due to the motion of flux vorticies. But this doesn't behave quite like an Ohmic resistance, and the loss is really small in good alloys.

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    Bugrit! Millenium hand and shrimp!