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Question
If the transition of electron takes place from n=4 state, then the maximum number of spectral lines obtained for transition to ground state will be
If the transition of electron takes place from n=4 state, then the maximum number of spectral lines obtained for transition to ground state will be
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Solution
The correct option is A 6
From the nth state, the electron may go to (n−1)th state, ...., 2nd state or 1st state. So there are (n 1) possible transitions starting from the nth state. The atoms reaching (n−1)th state may make (n 2) different transitions. The atoms reaching (n−2)th state may make (n 3) different transitions. Similarly for other lower states. During each transition a photon with energy hν and wavelength λ is emitted out. Hence, the total number of possible transitions is equal to the number of photons emitted. The total number of possible transitions is
(n−1),(n−2),(n−3),................,3,2,1=n(n−1)2
Therefore, for transition of an electron from higher energy state n = 4 to lower energy state n = 1 the number of photons emitted are
n(n−1)2=4(4−1)2=122=6
From the nth state, the electron may go to (n−1)th state, ...., 2nd state or 1st state. So there are (n 1) possible transitions starting from the nth state. The atoms reaching (n−1)th state may make (n 2) different transitions. The atoms reaching (n−2)th state may make (n 3) different transitions. Similarly for other lower states. During each transition a photon with energy hν and wavelength λ is emitted out. Hence, the total number of possible transitions is equal to the number of photons emitted. The total number of possible transitions is
(n−1),(n−2),(n−3),................,3,2,1=n(n−1)2
Therefore, for transition of an electron from higher energy state n = 4 to lower energy state n = 1 the number of photons emitted are
n(n−1)2=4(4−1)2=122=6
n(n−1)2=4(4−1)2=122=6
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