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A hydrogen-like atom (atomic number Z) i...

A hydrogen-like atom (atomic number Z) is in a higher excited state of quantum number n.This excited atom can make transition to the first excited state by succesively emitting two photons of energies `10.20 eV` and `17.00 eV` respectively. Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting two photons of energies `4.25 eV` and ` 5.95 eV` respectively. Determine the values of n and z

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`n=6, Z=3,`
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P BAHADUR-ATOMIC STRUCTURE-Exercise 9
  1. Consider three electron jumps described below for the hydrogen atom ...

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  2. A series of lines in the spectrum of atomic H lies at wavelengths 656...

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  3. A hydrogen-like atom (atomic number Z) is in a higher excited state of...

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  4. Calculate the Rydberg constant RH if He^+ ions are known to have the ...

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  5. Consider the follwoing two elerctronic transition possibilites in a hy...

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  6. The angular momentum of electron in a Bohr's orbit of H atom is 4....

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  7. Find the quantum number n corresponding to the excited state of He^(o...

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  8. Calculate the angular frequency of an electron occupying the second ...

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  9. Two hydrogen atom collide Collide head on and end up with zero kin...

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  10. The kinetic energy of an electron in H-like atom is 6.04 eV. Find t...

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  11. How many spectral linears are emitted by atomic hydrgen excited to the...

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  12. The hydrogen atom in the ground state is excited by mass of monchromat...

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  13. A single electron orbits around a stationary nucleus of charge + Ze wh...

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  14. Determine de-Broglie wavelength of an electron having kinetic energy o...

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  15. Show that de-Broglie wavelength of electron acceleratated through (V) ...

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  16. Calculate the momentum of electron moving with 1//3 3rd velocity of l...

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  17. Calculate the accelerating potential that must be imparted to a proton...

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  18. An electron in a hydrogen like atom is in an excited state3 . It has a...

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  19. A green ball weighs 75 g and comes travelling towards you at 400 cm ...

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  20. Stationary He^(o+) ion emits a photon corresponding to the first line ...

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