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if the wavelength of the first line of t...

if the wavelength of the first line of the balmer series of hydrogen is `6561 Å`, the wavelength of the second line of the series should be

A

`1215 Å`

B

`1640 Å`

C

`2430 Å`

D

`4687 Å`

Text Solution

Verified by Experts

The correct Answer is:
A
` (1)/(lambda_(H_(2)))RZ_(H)^(2)[(1)/(4)-(1)/(9)]=R(1)^(2)[(5)/(36)]`
`(1)/(lambda_(He))=RZ_(He)^(2)[(1)/(4)-(1)/(16)]=R(4)[(3)/(16)]`
`(lambda_(He))/(lambda_(He))=(1)/(4)[(16)/(3)xx(5)/(36)]=(5)/(27)`
`lambda_(He)=(5)/(27)xx6561=1215+A214Å`
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