(B) The Balmer series corresponds to transitions where the final orbit is $n_1 = 2$.For any spectral series,the $k$-th line corresponds to a transitio

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Fifth Bohr orbit to the second Bohr orbit

(B) The Balmer series corresponds to transitions where the final orbit is $n_1 = 2$.For any spectral series,the $k$-th line corresponds to a transition from $n_2 = n_1 + k$.For the Balmer series,$n_1 = 2$.The third line $(k = 3)$ corresponds to the transition from $n_2 = 2 + 3 = 5$.Therefore,the transition is from the $5^{th}$ Bohr orbit to the $2^{nd}$ Bohr orbit.

Class 12 Physics Atoms Spectral Series of Hydrogen Atom

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The third line of the Balmer series in the emission spectrum of the hydrogen atom is due to the transition of an electron from the:

A
Fourth Bohr orbit to the first Bohr orbit
B
Fifth Bohr orbit to the second Bohr orbit
C
Sixth Bohr orbit to the second Bohr orbit
D
Seventh Bohr orbit to the second Bohr orbit

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Spectral Series of Hydrogen Atom

If $\lambda_1$ is the wavelength of the series limit of the Lyman series,$\lambda_2$ is the wavelength of the first line of the Lyman series,and $\lambda_3$ is the series limit of the Balmer series,then the relation between $\lambda_1, \lambda_2,$ and $\lambda_3$ is:

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At room temperature, gaseous hydrogen is bombarded with a beam of electrons of $13.6 \ eV$ energy. The series to which the emitted spectral line belongs is:

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The wave number of the first line in the Lyman series of a hydrogen atom is ($R$ is Rydberg's constant).

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Explain emission line spectra and absorption spectra.

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If the series limit frequency of the Lyman series is $v_L$,then the series limit frequency of the Pfund series is

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The third line of the Balmer series in the emission spectrum of the hydrogen atom is due to the transition of an electron from the:

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If $\lambda_1$ is the wavelength of the series limit of the Lyman series,$\lambda_2$ is the wavelength of the first line of the Lyman series,and $\lambda_3$ is the series limit of the Balmer series,then the relation between $\lambda_1, \lambda_2,$ and $\lambda_3$ is:

At room temperature, gaseous hydrogen is bombarded with a beam of electrons of $13.6 \ eV$ energy. The series to which the emitted spectral line belongs is:

The wave number of the first line in the Lyman series of a hydrogen atom is ($R$ is Rydberg's constant).

Explain emission line spectra and absorption spectra.

If the series limit frequency of the Lyman series is $v_L$,then the series limit frequency of the Pfund series is

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