21106 | Most of the mass of a proton is the energy in virtual particles (rather than the quarks) [Krauss] |
Full Idea: The quarks provide very little of the total mass of a proton, and the fields created by the virtual particles contribute most of the energy that goes into the proton's rest energy and, hence, its mass. | |
From: Lawrence M. Krauss (A Universe from Nothing [2012], 04) | |
A reaction: He gives an artist's impression of the interior of a proton, which looks like a ship's engine room. |
21144 | Top, bottom, charm and strange quarks quickly decay into up and down [New Sci.] |
Full Idea: Quarks can change from one variety to another, and the top, bottom, charm and strange quarks all rapidly decay to the up and down quarks of everyday life. | |
From: New Scientist writers (Why the Universe Exists [2017], 01) | |
A reaction: Hence the universe is largely composed of up and down quarks and electrons. The other quarks seem to be more important in the early universe. |
21138 | Neutrons are slightly heavier than protons, and decay into them by emitting an electron [New Sci.] |
Full Idea: The proton (938.3 MeV) is lighter than the neutron (939.6 MeV) and does not decay, but the heavier neutron can change into a proton by emitting an electron. (If you gather a bucketful of neutrons, after ten minutes only half of them would be left). | |
From: New Scientist writers (Why the Universe Exists [2017], 01) | |
A reaction: Protons are more or less eternal, but some theories have them decaying after billions of years. Smashing protons together is a popular pastime for physicists. |
21186 | Quarks rush wildly around in protons, restrained by the gluons [Hesketh] |
Full Idea: Inside a proton the quarks are rushing around like caged animals, free to move until they push against the bars to try to escape, when the gluons pull them back in. | |
From: Gavin Hesketh (The Particle Zoo [2016], 04) |