Medium
How many orbitals are present in the $4^{th}$ shell with $\ell = 2$?
- A$16$
- B$3$
- C$5$
- D$1$
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Similar Questions
Nitrogen has the electronic configuration $1s^2 2s^2 2p_x^1 2p_y^1 2p_z^1$ and not $1s^2 2s^2 2p_x^2 2p_y^1 2p_z^0$,which is determined by:
Easy
View SolutionThe angular momentum of a $p$-orbital electron is given by:
Medium
View SolutionMatch the $LIST$-$I$ with $LIST$-$II$:
List-$I$ (Orbital) List-$II$ (Radial nodes and nodal plane) $A$. $2s$ $I$. $1$ Radial node + two nodal planes $B$. $3s$ $II$. $1$ Radial node + one nodal plane $C$. $3p$ $III$. $2$ Radial nodes + No nodal plane $D$. $4d$ $IV$. $1$ Radial node + No nodal plane
| List-$I$ (Orbital) | List-$II$ (Radial nodes and nodal plane) |
| $A$. $2s$ | $I$. $1$ Radial node + two nodal planes |
| $B$. $3s$ | $II$. $1$ Radial node + one nodal plane |
| $C$. $3p$ | $III$. $2$ Radial nodes + No nodal plane |
| $D$. $4d$ | $IV$. $1$ Radial node + No nodal plane |
DifficultJEE MAIN 2026
View SolutionWhich of the following orbitals has/have zero probability of finding the electron in the $xy$ plane?
Easy
View SolutionFor $n = 5$ and $m = 2$,which of the following statements is incorrect?
Medium
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