(B) In the hydrogen spectrum,transitions ending at $n = 2$ belong to the Balmer series. The Balmer series falls within the visible region of the elect

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(B) In the hydrogen spectrum,transitions ending at $n = 2$ belong to the Balmer series. The Balmer series falls within the visible region of the electromagnetic spectrum. Therefore,the transition from $n = 5$ to $n = 2$ corresponds to the Balmer series in the visible region.

Class 11 Chemistry Structure of Atom Atomic models and Planck's quantum theory

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If an electron transitions from $n = 5$ to $n = 2$ in a hydrogen spectrum,identify the series and the region of the spectrum.

A
Lyman series,Ultraviolet region
B
Balmer series,Visible region
C
Paschen series,Infrared region
D
Brackett series,Infrared region

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Class 11

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Structure of Atom

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Atomic models and Planck's quantum theory

Which of the following activities can be compared to the concept of quantisation?

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Calculate the radius of the first orbit of $He^{+}$. (in $pm$)

EasyMHT CET 2024

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The ratio of the velocity of an electron in the ground state of a hydrogen atom to its velocity in the second excited state of a $He^{+}$ ion is:

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The wavelength of the first line of the Balmer series is $656 \ nm$. Calculate the wavelength of the second line of this series. (Note: First line means $n=3 \to n=2$ and second line means $n=4 \to n=2$)

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The maximum wavelength of radiation that can ionise a sodium atom is $2414 \ \mathring{A}$. The ionisation energy of sodium per mole shall be

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If an electron transitions from $n = 5$ to $n = 2$ in a hydrogen spectrum,identify the series and the region of the spectrum.

Similar Questions

Which of the following activities can be compared to the concept of quantisation?

Calculate the radius of the first orbit of $He^{+}$. (in $pm$)

The ratio of the velocity of an electron in the ground state of a hydrogen atom to its velocity in the second excited state of a $He^{+}$ ion is:

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