Emission transitions in the Paschen seri...

Emission transitions in the Paschen series end at orbit n = 3 and start from orbit n and can be represented as `v = 3.29 xx 10^(15) (Hz)[ 1//3^(2)-1//n^(2)]`
calculat the value of n if the transition is observed at 1258 nm. Find the region of the spectrum.

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Emission transitions in the Paschen series end at orbit n = 3 and start from orbit n and can be represented as v = 3.29 xx 10^(15) (Hz) [1//3^2 - 1//n^2] . Calculate the value of n if the transition is observed at 1285 nm. Find the region of the spectrum.

Emission transitions in the Paschen series end at orbit n=3 and start from orbit n and can be represented as v= 3.29xx10^(15)(Hz)[1//3^(2)-1//n^(2)] . Calculate the value of n if the transition is observed at 1285 nm. Find the region of the spectrum.

Emission transitions in the Paschen series end at orbit n=3 and start from orbit n and can be represented as v=3.29xx10^(15) (Hz)[1//3^(2)-1//n^(2)] Calculate the value of n if the transition is observed at 1285 nm . Find the region of the spectrum.

Emission transition in the Paschen series end at orbit n = 3 and start from orbit n and can be represented as nu = 3.29 xx 10^15 (Hz) [1//3^2 - 1//n^2] Calculate the value of n if the transition is observed at 1285nm. Find the region of the spectrum.

Emission transition in the Paschen series end at orbit n=3 and start from orbit n and can be represented as v=3.29 xx 10^(15) (Hz) [1//3^2-1//n^2] Calculate the value of n if the transition is observed at 1285nm Find the region of the spectrum.

Emission transitions in the Paschen series end at orbit n=3 and start from orbit n and can be represented as v=3.29 xx 10^(15) (H z) [1 / 3^2-1/ n^2] : Calculate the yalue of 'n' if the transition is observed at 1285nm. Find the region of the spectrum.

The Lyman series of the hydrogen spectrum can be represented by the equation v = 3.2881 xx 10^(15)s^(-1)[(1)/((1)^(2)) - (1)/((n)^(2))] [where n = 2,3,…….) Calculate the maximum and minimum frequencies of the lines in this series

Emission transitions in the Paschen series end at orbit n = 3 and start from orbit n and can be represented as `v = 3.29 xx 10^(15) (Hz)[ 1//3^(2)-1//n^(2)]` calculat the value of n if the transition is observed at 1258 nm. Find the region of the spectrum.

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Emission transitions in the Paschen series end at orbit n = 3 and start from orbit n and can be represented as `v = 3.29 xx 10^(15) (Hz)[ 1//3^(2)-1//n^(2)]`
calculat the value of n if the transition is observed at 1258 nm. Find the region of the spectrum.