Qstnid -I-3-which Wavelengths Will Be Emitted By A Sample Of Atomic Hydrogen Gas (In Ground State) If Electrons Of Energy 12.2 Ev Collide With The Atoms Of The Gas? - 43: Bohr's Model And Physics Of The Atom - Neet-xii-physics

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NEET-XII-Physics

43: Bohr's Model and Physics of the Atom

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#3
Which wavelengths will be emitted by a sample of atomic hydrogen gas (in ground state) if electrons of energy 12.2 eV collide with the atoms of the gas?
Ans : As the electron collides, it transfers all its energy to the hydrogen atom.
The excitation energy to raise the electron from the ground state to the nth state is given by
`` E=(13.6\,\mathrm{\,eV\,})\times \left(\frac{1}{{1}^{2}}-\frac{1}{{n}^{2}}\right)``
Substituting n = 2, we get
E = 10.2 eV
Substituting n = 3, we get
E' = 12.08 eV
Thus, the atom will be raised to the second excited energy level.
So, when it comes to the ground state, there is transitions from n = 3 to n = 1.
Therefore, the wavelengths emitted will lie in the Lyman series (infrared region).
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