On Tuesday, December 2, 2014 8:25:34 AM UTC-8, G=EMC^2TreBert wrote:
On Monday, December 1, 2014 7:55:04 AM UTC-8, Kevin Barry wrote:
It is sunset and the full disk of The Sun is hovering just above the horizon with Mercury in conjunction. Mercury fires a bullet aimed at the strong nuclear force which is a target on the surface of the Earth which is about a square foot in area. Mercury hits the target and the weak nuclear force hits the ground about 200 feet away. The strong nuclear force sees the gun and sees where the impact location of the weak nuclear force is and the strong nuclear force is curious to investigate... Question: What is the result of the strong nuclear force's investigation? Ya see, the mystery of strong-weak interaction is that the strong force is attracted to the weak force and therefore they always wind up being at the same location. The result of the strong force's investigation is that there is no investigation given that one can be certain that one is insane if particle physics has application on an astronomical scale, therefore, while at the subatomic level, the strong nuclear force and the weak nuclear force wind up being at the same location, the same does not hold true given its application to astronomy.

It begs the question What is the furthest gluons will allow quarks to seperate? How strong is strong force's force? TreBert


Well, you don't see many free quarks flying around. Although quark stars have been postulated.

Double-A