In a single isolated atom of hydrogen e...

In a single isolated atom of hydrogen electron make transition from `4^(th)` excited state to grond state producing maximum possible number of wavelengths if the `2^(nd)` lowest energy of these lines is used to further excite an already excited sample of `Li^(2+)` ion then transition will be

A

`12rarr 15`

B

`9 rarr 12`

C

`6 rarr 9`

D

`3 rarr 6`

Text Solution

Verified by Experts

The correct Answer is:

B

Similar Questions

Explore conceptually related problems

In a H- like sample electron makes transition from 4th excited state of 2nd state then:

In a single isolated atom an electron make transition from 5th excited state to 2nd state then maximum number of different types of photons observed is

In a sample of H- atom electrons make transition from 5^(th) excited state to ground state, producing all possible types of photons, then number of lines in infrared region are

As an electron makes a transition from an excited state to the ground state of hydrogen-like atom // ion:

If electron make transition from 7^(th) excited state to 2^(nd) state in H atom sample find the max. number of spectral lines observed.

As an electron makes a transition from an excited state to the ground state of a hydrogen - like atom //ion

In a sample of excited hydrogen atoms electrons make transition from n=2 to n=1. Emitted energy.

Electron in a hydrogen atom makes a transition from higher energy states to n=2. Calculate the maximum possible wavelengths in this transition.

In a single isolated atom of hydrogen electron make transition from `4^(th)` excited state to grond state producing maximum possible number of wavelengths if the `2^(nd)` lowest energy of these lines is used to further excite an already excited sample of `Li^(2+)` ion then transition will be

Text Solution

Similar Questions

Recommended Questions