How Pentaquarks May Lead To the Discovery of New Fundamental Physics

StartsWithABang writes: Over 100 years ago, Rutherford's gold foil experiment discovered the atomic nucleus. At higher energies, we can split that nucleus apart into protons and neutrons, and at still higher ones, into individual quarks and gluons. But these quarks and gluons can combine in amazing ways: not just into mesons and baryons, but into exotic states like tetraquarks, pentaquarks and even glueballs. As the LHC brings these states from theory to reality, here's what we're poised to learn, and probe, by pushing the limits of quantum chromodynamics.

Re:Actually, you CAN'T do that

"You can't ever get two quarks very far apart. That property arises because the gluon, the force carrier for the strong force, has a strong charge of it's own. "

If you tried to separate "it" from "is", will the force generate new apostrophes?

Re:Anyone know why this moron does this?

[Foobar+of+Borg]

Some researcher connected a cow's brain to the internet and gave it a Slashdot account.

Well, that would explain the editors...