[A] An electron in an orbital of high angular momentum stays away from the nucleus than an electron in the orbital of lower angular momentum. |
[B] For a given value of the principal quantum number, the size of the orbit is inversely proportional to the azimuthal quantum number. |
[C] According to wave mechanics, the ground state angular momentum is equal to\[\frac{h}{2\pi }\]. |
[D] The plot of \[\psi \,Vs\,\,r\]for various azimuthal quantum numbers, shows peak shifting towards higher r value. |
A) [B], [C]
B) [A], [D]
C) [A], [B]
D) [A], [C]
Correct Answer: B
Solution :
In ground state (Is orbital) \[\therefore \] Orbital angular momentum \[=\sqrt{\ell (\ell +1)}\frac{h}{2\pi }\]You need to login to perform this action.
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