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An electron with energy 13.2 eV collides with an element, and the electron emerges with energy 4.5 eV. What wavelength of light would also be emitted along with the electron?
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An electron with energy 13.2 eV collides with an element, and the electron emerges with energy 4.5 eV. What wavelength of light would also be emitted along with the electron?

User Alex Harrison
by
3.2k points

1 Answer

5 votes
5 votes

Answer:
140\ nm

Step-by-step explanation:

Given

Initial kinetic energy is
K_i=13.2\ eV

Final kinetic energy is
K_f=4.5\ eV

Change in kinetic energy is
\Delta K=K_i-K_f


\Rightarrow \Delta K=13.2-4.5\\\Rightarrow \Delta K=8.7\ eV

Energy is given by


E=(hc)/(\lambda)

Equate it to change in kinetic energy


\Rightarrow 8.7=(hc)/(\lambda)\\\\\Rightarrow \lambda =(6.63* 10^(-34)* 3* 10^8)/(8.7* 1.6* 10^(-19))\\\\\Rightarrow \lambda =1.4* 10^(-7)\ m\\\Rightarrow \lambda=140\ nm

Therefore, the wavelength associated with it is
140\ nm.

User Daniel Katz
by
3.6k points
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