In order to obtain the energy scale estimation of proton and neutron, use the Wilson- Sommerfeld rules. As quarks move away from each other, the colored lines of the force contract into string-li...
In order to obtain the energy scale estimation of proton and neutron, use the Wilson- Sommerfeld rules. As quarks move away from each other, the colored lines of the force contract into string-like energy-dense regions. In order to establish the phenomenological model in which the energy input is proportional to the distance from the central coordinate Assuming linear potential: V(x) kr The masses of the upper and lower quarks are thought to be much smaller than the masses of the nuclei they make up, about two orders of magnitude, so they can be considered highly relativistic particles. Let's write the kinetic energy in terms of pc, the total energy of the valence electron quark is this 1). Evaluate the Sommerfeld-Wilson integral For the ground state, n is equal to 1. Let me write it this way E- Vhck 2). solve kwith Xmax and E using energy saving parameters, where Xmax is the nuclear center of the maximum offset quark. 3). shows that the energy of the nucleus is derived from he Tmax 4). calculate the nuclear energy (or at least the contribution of a single quark) at Xmax 117 fm #1.1 938 MeV/c 7x10-ith m. Please comment on your results For example, proton energys about
In order to obtain the energy scale estimation of proton and neutron, use the Wilson- Sommerfeld rules. As quarks move away from each other, the colored lines of the force contract into string-like energy-dense regions. In order to establish the phenomenological model in which the energy input is proportional to the distance from the central coordinate Assuming linear potential: V(x) kr The masses of the upper and lower quarks are thought to be much smaller than the masses of the nuclei they make up, about two orders of magnitude, so they can be considered highly relativistic particles. Let's write the kinetic energy in terms of pc, the total energy of the valence electron quark is this 1). Evaluate the Sommerfeld-Wilson integral For the ground state, n is equal to 1. Let me write it this way E- Vhck 2). solve kwith Xmax and E using energy saving parameters, where Xmax is the nuclear center of the maximum offset quark. 3). shows that the energy of the nucleus is derived from he Tmax 4). calculate the nuclear energy (or at least the contribution of a single quark) at Xmax 117 fm #1.1 938 MeV/c 7x10-ith m. Please comment on your results For example, proton energys about