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If the binding energy of the electron in a hydrogen atom is 13.6 eV, what will be the energy required to remove the electron from the first excited state of `Li^(++)` ?

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The correct Answer is:
30.6 eV
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CHHAYA PUBLICATION-ATOM-PROBLEM SET-I
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  2. If the electron in a hydrogen atom jumps from the second excited state...

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  3. Wavelength of a spectral line found in the atomic spectrum of hydroge...

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  5. Radius of the Bohr orbit of hydrogen atom is 0.53 Å . What will be the...

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  6. If the longest wavelength of Balmer series in the atomic spectrum of h...

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  7. If radius of the 1 st Bohr orbit of hydrogen atom be 0.53 Å , determ...

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  8. In an excited state, the energy of the electron of a hydrogen atom ...

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  9. Calculate the maximum and minimum wavelengths of Lyman series of hydro...

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  10. If the binding energy of the electron in a hydrogen atom is 13.6 e...

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  11. The radiation , emitted due to transition of hydrogen atom from the se...

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  12. When ultraviolet rays of wavelength 620 Å is incident on a hydrogen at...

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  13. The ground state energy of a hydrogen atom is -13.6 eV . The charge of...

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  14. The Rydberg constant for hydrogen is 109737 cm^(-1) . Find out the lo...

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  15. The wavelength of the first member of Balmer series is 6560 Å . Calcu...

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  16. If a stream of electrons having kinetic energy 36 keV be incident on ...

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  17. If 50 kV potential difference is applied across a Coolidge tube, what...

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  18. What should be the minimum value of potential difference to be applie...

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  19. Estimate the kinetic energy of electron that hit the target in a Cool...

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  20. In case of hydrogen atom, calculate the wavelength of K(alpha) line....

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