In a certain electronic transition in Hydrogen atom from an initial state to a final state, the difference of orbit radius is 8 times the first Bohr radius. Which transition does not satisfy the given condition?

In a certain electronic transition in Hydrogen atom from an initial state to a final state, the difference of orbit radius is 8 times the first Bohr radius. Which transition does satisfy the given condition?

In a certain electronic transition in the Hydrogen atom from an initial state i to a final state the difference in the orbit radius ( r_i-r_f) is seven times the first Bohr radius. Identify the transition

In a certain electronic transition in the Hydrogen atom from an initial state i to a final state the difference in the orbit radius ( r_i-r_f) is seven times the first Bohr radius. Identify the transition

In a certain electronic transition in the hydrogen atoms from an initial state (1) to a final state (2) , the difference in the orbit radius ((r_(1)-r_(2)) is 24 times the first Bohr radius. Identify the transition-

In a certain electronic transition in the hydrogen atoms from an initial state (1) to a final state (2) , the difference in the orbit radius ((r_(1)-r_(2)) is 24 times the first Bohr radius. Identify the transition-

The electron in a hydrogen atom jumps from ground state to the higher energy state where its velcoity is reduced to one-third its initial value. If the radius of the orbit in the ground state is r the radius of new orbit will be

The electron in a hydrogen atom jumps from ground state to the higher energy state where its velcoity is reduced to one-third its initial value. If the radius of the orbit in the ground state is r the radius of new orbit will be

If an orbital electron of the hydrogen atom jumps from the groud state to a higher energy state, its orbital value. If the radius of the electron orbit in the ground state is r , then the radius of the new orbit would be:

An electron in a hydrogen atom makes a transition from first excited state to ground state . The equivelent currect due to circulating electron :