A hydrogen atom has only one electron,so mutu | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(N/A) In a hydrogen atom,the energy of an electron depends only on the principal quantum number $(n)$.In multielectron atoms,the presence of other ele

Vedclass · Accepted Answer

Vedclass · Answer

(N/A) In a hydrogen atom,the energy of an electron depends only on the principal quantum number $(n)$.
In multielectron atoms,the presence of other electrons causes shielding and repulsion,which makes the energy of an electron dependent on both the principal quantum number $(n)$ and the azimuthal quantum number $(l)$.
According to the $(n+l)$ rule,for a given principal quantum number $(n)$,the energy of orbitals increases as the value of $l$ increases.
Therefore,in multielectron atoms,the orbitals of the same principal quantum number $(n)$ have different energies,following the order $E_s < E_p < E_d < E_f$.

$A$ hydrogen atom has only one electron,so mutual repulsion between electrons is absent. However,in multielectron atoms,mutual repulsion between the electrons is significant. How does this affect the energy of an electron in the orbitals of the same principal quantum number in multielectron atoms?

Similar Questions

The electronic configuration of the element with atomic number $27$ is:

What is the decreasing order of energy for the $2s$-orbital of $H, Li, Na$,and $K$ atoms?

The electrons identified by quantum numbers $n$ and $l$ :
$A. n=4, l=1$ $B. n=4, l=0$
$C. n=3, l=2$ $D. n=3, l=1$
can be placed in order of increasing energy as :

Krypton $(_{36}Kr)$ has the electronic configuration $[Ar] 4s^2 3d^{10} 4p^6$. The $37^{th}$ electron will go into which of the following subshells?

Which one represents an impossible arrangement of quantum numbers $(n, l, m, s)$?

Vedclass Test Series

Exam Paper Generator

Online Exam Module