The Kaon Mesons masses are known relatively well so it is easier to use to characterize the masses of the mesons. The following paper shows that the Kaon meson mass formula is consistent with the other meson formulas used by this author. The same basic integrated polynomial is use. The basic sub formulas are also consistent between mesons. The positive and negative Kaon use the same formula as the Rho meson, except in the sub formula 14/27 is used for the positive and negative Kaon instead of 22/27 for the rho meson. As has been noted by Paolo Palazzi, (10) the mesons can be characterized as parts of 27 and all even parts of 27. The author of this paper has not characterized all of the mesons to verify if this follows for all the mesons, but it has held for the pion, rho, and kaons. The value of 27 has been used in all the polynomial calculations and the sub formula’s. It is getting less and less doubtful that this is coincidental. To this point on 9-6-2015 this author had worked out the formulas for the electron, muon, tauon, pion, rho, and kaon particles independent of Paolo Palazzi’s work, without knowledge that anyone had noticed the pattern of 27 previously, although the pattern was so obvious, except in the case of the electron, that is seemed unlikely that it had not been noticed previously. The high mass mesons, have such a large mass, that it would be difficult to determine that the pattern of 27 was used or if it was simply numerology and coincidental curve fitting. This paper uses the same technique for proposing a method that gives clues to the mass ratio of mesons to the Proton. This is for the mesons made of, at least one, up or down quarks or their anti quarks. The structure of the equations are such that the masses are related to a type of probability. For example, the 10 percent chance an emission of energy would be going in the x direction vs the 90 percent in the y direction.