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Electrons in a sample of gas containing ...

Electrons in a sample of gas containing hydrogen-like atom `(Z = 3)` are in fourth excited state. When photons emitted only due to transition from third excited state to second excited state are incident on a metal plate photoelectorns are ejected. The stopping potential for these photoelectorns is `3.95 eV`. now, if only photons emitted due to transition from fourth excited state to third excited state are incident on the same metal plate, the stopping potential for the emitted photoelectrons will be appoximetely equal to

A

`0.85 eV`

B

`0.75 eV`

C

`0.65 eV`

D

None of these

Text Solution

Verified by Experts

The correct Answer is:
B
`hv = 13.6 (3)^(2) [(1)/(4^(2)) - (1)/(5^(2))] = 2.75 ev`
for `n = 4` to `n = 3`
`hv = (13.6) xx (3)^(2) [(1)/(3^(2)) - (1)/(4^(2))] = 5.95 eV`
for shortest wavelength
`3.95 = 5.95 - phi rArr phi = 2eV`
for longer wavelength `eV_(s) = 2.75 - 2= 0.75 eV`
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Knowledge Check

  • The ratio of energies of hydrogen atom in its first excited state to third excited state is

    A
    `1/4`
    B
    `4/1`
    C
    `3/4`
    D
    `4/3`

  • For the hydrogen atom, the energy of radiation emitted in the transition from 4th excited state to 2nd excited state, according to Bohr's theory is

    A
    0.567 eV
    B
    0.667 eV
    C
    0.967 eV
    D
    1.267 eVs

  • For the hydrogen atom the energy of radiation emitted in the transitation from 4th excited state to 2nd exicited state according to Bohr 's theory is

    A
    0.57 eV
    B
    0.667 eV
    C
    0.967 eV
    D
    1.267 eV

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