a) The corresponding Hamiltonian operator in the spin-orbit coupling caused by the interaction of the magnetic dipole moment of the electron orbiting the nucleus in the l=1 orbital and the magnetic field created by the proion is given by His = kL ·S In this In this case, using the DGi base set, find the new energy levels that occur in the presence of spin orbital coupling and discuss whether they are degenerate.
a) The corresponding Hamiltonian operator in the spin-orbit coupling caused by the interaction of the magnetic dipole moment of the electron orbiting the nucleus in the l=1 orbital and the magnetic field created by the proion is given by His = kL ·S In this In this case, using the DGi base set, find the new energy levels that occur in the presence of spin orbital coupling and discuss whether they are degenerate.
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Transcribed Image Text:a) The corresponding Hamiltonian operator in the
spin-orbit coupling caused by the interaction of the
magnetic dipole moment of the electron orbiting the
nucleus in the
l = 1
orbital and the magnetic field
created by the proion is given by
ALs = kL · S
In this
case, using the Digi base set, find the new energy
levels that occur in the presence of spin orbital coupling
and discuss whether they are degenerate.
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