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Question

When an electron in hydrogen atom jumps from the third excited state to the ground state, how would the de-Broglie wave length associated with the electron change? Justify your answer.

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Solution

De-Broglie wavelength associated with a moving charge particle having a K.E. 'K' can be given as

λ=h hmK[K=12 mv2=p22m] ...(i)

The kinetic energy of the electron in any orbit of hydrogen atom can be given as

K=E=(13.6n2eV)=13.6n2eV ...(ii)

Let K1 and K4 be the K.E. of the electron in ground state and third excited state, where n1=1 shows ground state and n2=4 shows third excited state.

Using the concept of equations (i) and (ii), we have

λ1λ2=K4K1=n21n22

λ1λ4=1242=14

λ1=λ44
i.e., the wavelength in the ground state will decrease.

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