(B) The radius of the $n^{th}$ orbit of a hydrogen atom is given by the formula $r_n = 0.529 \times n^2 \mathring{A} = 52.9 \times n^2 \text{ pm}$. G

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(B) The radius of the $n^{th}$ orbit of a hydrogen atom is given by the formula $r_n = 0.529 \times n^2 \mathring{A} = 52.9 \times n^2 \text{ pm}$. Given $r_n = 476.1 \text{ pm}$, we have $52.9 \times n^2 = 476.1$. $n^2 = \frac{476.1}{52.9} = 9$. Therefore, $n = 3$. A transition to the $n = 3$ orbit corresponds to the Paschen series.

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

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The electron in a hydrogen atom undergoes a transition from higher orbits to an orbit of radius $476.1 \text{ pm}$. This transition corresponds to which of the following series?

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A
Lyman
B
Paschen
C
Balmer
D
Pfund

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Structure of Atom

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The electron in a hydrogen atom undergoes a transition from higher orbits to an orbit of radius $476.1 \text{ pm}$. This transition corresponds to which of the following series?

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