Question:
The wavelength of a spectral line in the second order of the hydrogen spectrum is 2.82 Å. The wavelength of the spectral line in the first order is:
The wavelength of a spectral line in the second order of the hydrogen spectrum is 2.82 Å. The wavelength of the spectral line in the first order is:
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To find the wavelength in the first order, simply multiply the wavelength in the second order by 2.
Updated On: Apr 28, 2026
- 5.64 Å
- 8.64 Å
- 10.82 Å
- 4.82 Å
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The Correct Option is A
Solution and Explanation
Step 1: Use the relation between wavelengths in different orders.
For the hydrogen spectrum, the wavelength in the \( m \)-th order is related to the wavelength in the first order by:
\[
\lambda_m = \frac{\lambda_1}{m}
\]
Where \( \lambda_1 \) is the wavelength in the first order and \( m \) is the order of the spectrum.
Step 2: Solve for \( \lambda_1 \). Given \( \lambda_2 = 2.82 \, \text{Å} \) for the second order, we have: \[ \lambda_1 = 2 \times \lambda_2 = 2 \times 2.82 \, \text{Å} = 5.64 \, \text{Å} \]
Step 2: Solve for \( \lambda_1 \). Given \( \lambda_2 = 2.82 \, \text{Å} \) for the second order, we have: \[ \lambda_1 = 2 \times \lambda_2 = 2 \times 2.82 \, \text{Å} = 5.64 \, \text{Å} \]
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