When an electron makes a transition from `(n+1)` state of nth state, the frequency of emitted radistions is related to n according to `(n gt gt 1)`:

When an electron makes a transition from (n + 1) state to n state the frequency of emitted radiation is related to n according to (n gtgt 1)

When an electron makes transition from (n+1) state to n state the wavelength of emitted radiations is related to n (ngtgtgt1) according to lamdapropn^(x). What is the value of x ?

In hydrogen atom electron jumps from (n+1)th state to nth state the frequency of emitted photon is directly proportional to (n>>1)

In a hydrogen atom the electron makes a transition from (n+1)^(th) level to the n^(th) level .If n gt gt 1 the frequency of radiation emitted is proportional to :

A particular hydrogen like rediation of frequency 2.467 xx 10^(15)Hs when it makes transition from n = 3 to n = 1 ,What will be the frequency of the raditation emitted in a transion from n = 3 to n= 1 ?

When an electron do transition from n = 4 to n = 2, then emitted line in spectrum will be:

The frequency of revolution of an electron in nth orbit is f_(n) . If the electron makes a transition from nth orbit to (n = 1) th orbit , then the relation between the frequency (v) of emitted photon and f_(n) will be

A hydrogen-like atom emits rediationof frequency 2.7 xx 10^(15) Hz when if makes a transition from n = 2 to n = 1 . The frequency emitted in a transition from n = 3 to n = 1 will be

A photon of wavelength lambda is absorbed by an electron confined to a box of length sqrt(35hlambda//8mc) . . As a result, the electron makes a transition from state k = 1 to the state n. Subsequently the electron transits from the state n to the state m by emitting a photon of wavelength lambda'=1.85lambda . Then