rushil
Dec13-05, 08:52 PM
Is there any special significance of the fact that \vec{L} and \vec{S} of an electron are in-phase or out-of-phase at all times?????
i.e. is there any special physical significance of the fact that
(i) | \vec{J} | = | \vec{L} | + | \vec{S} |
(ii) | \vec{J} | = | \vec{L} | - | \vec{S} |
I am refering to magnitudes above!
Also, is there any significance of the fact that \vec{L} and \vec{S} are NOT in phase at any time?????
We are obviously assuming simple electronic configurations! :tongue: :biggrin:
i.e. is there any special physical significance of the fact that
(i) | \vec{J} | = | \vec{L} | + | \vec{S} |
(ii) | \vec{J} | = | \vec{L} | - | \vec{S} |
I am refering to magnitudes above!
Also, is there any significance of the fact that \vec{L} and \vec{S} are NOT in phase at any time?????
We are obviously assuming simple electronic configurations! :tongue: :biggrin: