Find out the distance between the 2^{nd} and | vedclass

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(A) The radius of the $n^{th}$ orbit of the $H$-atom is given by the formula $r_n = 0.529 	imes n^2 \mathring{A}$.For the $2^{nd}$ orbit $(n=2)$: $r_

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$2.65 \mathring{A}$

Vedclass · Answer

(A) The radius of the $n^{th}$ orbit of the $H$-atom is given by the formula $r_n = 0.529 	imes n^2 \mathring{A}$.For the $2^{nd}$ orbit $(n=2)$: $r_2 = 0.529 	imes (2)^2 = 0.529 	imes 4 = 2.116 \mathring{A}$.For the $3^{rd}$ orbit $(n=3)$: $r_3 = 0.529 	imes (3)^2 = 0.529 	imes 9 = 4.761 \mathring{A}$.The distance between the $2^{nd}$ and $3^{rd}$ orbit is $r_3 - r_2 = 4.761 \mathring{A} - 2.116 \mathring{A} = 2.645 \mathring{A} \approx 2.65 \mathring{A}$.Thus,the correct option is $A$.

List-$I$ (Spectral Series for Hydrogen)	List-$II$ (Spectral Region)
$A$. Lyman	$I$. Infrared region
$B$. Balmer	$II$. $UV$ region
$C$. Paschen	$III$. Infrared region
$D$. Pfund	$IV$. Visible region

Find out the distance between the $2^{nd}$ and $3^{rd}$ orbit of the $H$-atom $:-$

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For a $H$-atom,what is the wavelength in $nm$ associated with the transition of an electron from an infinite energy level to the first energy level? (Rydberg constant = $1.097 \times 10^{7} \ m^{-1}$)

The wavelength of a particular electron transition for $He^{+}$ is $100 \ nm$. The wavelength (in $\mathring{A}$) of $H$ atom for the same transition is

Match List-$I$ with List-$II$.

List-$I$ (Spectral Series for Hydrogen) List-$II$ (Spectral Region)

$A$. Lyman $I$. Infrared region

$B$. Balmer $II$. $UV$ region

$C$. Paschen $III$. Infrared region

$D$. Pfund $IV$. Visible region

Choose the correct answer from the options given below:

The speed of the electron (in $ms^{-1}$) in the third orbit of a hydrogen atom is approximately (mass of electron $= 9.1 \times 10^{-31} \ kg$).

First and second excitation potentials of hydrogen atom (in $eV$) would be respectively

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