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Question
Find the ratio of longest wavelength in Paschen series to shortest wavelength in Balmer series.
Solution
Let,
λS = shortest wavelength
λL = longest wavelength
`1/lambda=R(1/p^2-1/n^2)`
Longest wavelength in Paschen series is obtained when p = 3, n = 4
For longest wavelength,
`therefore 1/lambda_l=R[1/3^2-1/4^2]`
`therefore 1/lambda_l=R[1/9-1/16]`
`therefore 1/lambda_l=R[(16-9)/144]`
`therefore 1/lambda_l=(7R)/144`
`therefore lambda_l=144/(7R)`
Shortest wavelength in Balmer series is obtained when p = 2, n =∞ For shortest wavelength,
`therefore 1/lambda_s=R[1/2^2-1/oo^2]`
`therefore 1/lambda_5=4/R`
`therefore lambda_l/lambda_s=144/(7R)xxR/4`
`therefore lambda_l/lambda_s=5.131`
The ratio of longest wavelength in Paschen serires to shortest wavelength in Balmer series is 5.131.
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