A New Model for Matter, Space and Energy M.A.B.Garstin
http://ac.els-cdn.com/S1875389211005840/1-s2.0-S1875389211005840-main.pdf?_t id=09140c0f61853b7ddf72a6b29eb042d9 <http://ac.els-cdn.com/S1875389211005840/1-s2.0-S1875389211005840-main.pdf?_ tid=09140c0f61853b7ddf72a6b29eb042d9&acdnat=1343283300_61e97956a2f724088c92f bbf257c125f> &acdnat=1343283300_61e97956a2f724088c92fbbf257c125f ----------- Quoting from his Intro -------------------- Substituting in the energy of a proton for E in equation (2) the approximate frequency of a proton, therefore, is 2.27012x10^23Hz. The interesting coincidence is the fact that this frequency is only a factor of 4.7 times the upper limit of isotropic gamma radiation. In other words, the electromagnetic spectrum spans 22 orders of magnitude from 0 Hz up to its upper limit, and then within less than half a magnitude above that frequency the equivalent frequency of the *first element appears* (assuming the accuracy and meaning of Planck's constant h). But in order to raise this interesting coincidence up to an intriguing coincidence, one only needs to convert the frequency of a proton into a wavelength. Equation (3) shows that the wavelength of the frequency of a proton is 1.32060fm. But the equation that approximates the nuclear radius of an atom based on its mass number A is <equation did not translate>. Where R is the nuclear radius and r0= 1.2. For a single proton this yields an approximate radius of 1.2fm, a difference of only 10%. In other words, there appears to be a rather strong correlation between the mass and radius of a proton and the upper limit of the EM spectrum. This suggests that the constitution of a proton is, in fact, simply EM radiation at energy levels above that of gamma. -------------------------------- -Mark Iverson