- #1
MTd2
Gold Member
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I'm clueless.
MTd2 said:What if there is not enough energy from the pair's center of mass to make hadronization happen?
ExactlySolved said:As the distance between two quarks increases the potential energy in the bond between them grows without bound until hadronization occurs.
cesiumfrog said:Seen the plentiful research on Yang-Mills black hole "hair" in anti-de Sitter space (for boundary conditions)? It seems "black holes do not have color charge" only in the sense that classical relativists normally neglect everything other than gravitational and electromagnetic fields; in fact the black hole can have infinite hair by adding that many quantum fields.
MTd2 said:In the reference frame I considered, that is, the quark's center of mass, the system feels no gravity because it is in free fall, and the kinetic energy of the quarks in relation to the center is smaller than it needs to happen hadronization.
I wasn't aware of that. Can you give me some nice references?
MTd2 said:Look in any standard textbook on the subject and you will find a theorem in black hole physics called the "no hair" theorem. This theorem basically says that black holes have only three externally observable characteristics, mass M , surface charge Q, and angular momentum L.
MTd2 said:I did not say that! That quote is not mine!
malawi_glenn said:yes you did, in post #3
Black holes do not have color charge because they do not contain any particles that possess color charge. Color charge is a property of subatomic particles, such as quarks, that is responsible for the strong nuclear force. Since black holes are made up of highly compressed matter and not individual particles, they do not have color charge.
No, black holes do not emit any light, including colored light. This is because they have such a strong gravitational pull that not even light can escape from them. However, they can emit other forms of radiation, such as X-rays, as matter falls into them.
No, black holes do not have a color that we cannot perceive. Color is a property of light, and since black holes do not emit any light, they do not have a color. The term "black" in black hole refers to the fact that they do not reflect or emit any light, making them appear completely black to our eyes.
No, there are no known exceptions to the fact that black holes do not have color charge. This is a fundamental property of black holes that is supported by our current understanding of physics. However, there is ongoing research in the field of quantum gravity that may lead to new theories and insights about black holes.
No, black holes cannot gain color charge under any conditions. Color charge is a fundamental property of particles and cannot be gained or lost by objects like black holes. Additionally, the intense gravitational forces within a black hole would destroy any particles that did possess color charge, making it impossible for a black hole to acquire it.