(a) Consider a neutron as consisting of a proton plus a negative w meson in an = 1 orbital state. What would be the orbital magnetic dipole moment of such a configuration? Express your result as a multiple of the proton's magnetic moment. (b) Is it possible to account for the observed neutron magnetic moment from such a model? Suppose the neutron wave function consisted of two pieces, one corresponding to a g 0Dirac" neutron and the other to proton-plus- meson. What would be the relative sizes of the two pieces of the wave function? (Assume the proton also to behave like an ideal Dirac particle.) (c) Repeat the previous analysis for the proton magnetic moment: that is, consider the proton as part pure Dirac proton. plus part Dirac neutron with orbiting positive meson in = 1 state. %3D

Solution required for b and c parts

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(a) Consider a neutron as consisting of a proton plus a negative # meson in an = 1 orbital state. What would be the orbital magnetic dipole moment of such a configuration? Express your result as a multiple of the proton's magnetic moment. (b) Is it possible to account for the observed neutron magnetic moment from such a model? Suppose the neutron wave function consisted of two pieces. one corresponding to ag = 0 “Dirac" neutron and the other to proton-plus-7 meson. What would be the relative sizes of the two pieces of the wave function? (Assume the proton also to behave like an ideal Dirac particle.) (c) Repeat the previous analysis for the proton magnetic moment; that is, consider the proton as part pure Dirac proton. plus part Dirac neutron with orbiting positive 7 meson in = 1 state. (c)