The electron energy in hydrogen atom is given by E=(−21.7×10−12)n2 ergs. Calculate the enrgy required to remove an electron completely from the n = 2 orbit. What is the longest wavelength (in cm) of light that can be used to cause this transition?
A
3.67×10−7
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B
3.67×10−5
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C
3.80×10−5
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D
3.80×10−7
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Solution
The correct option is B3.67×10−5 Energy of an electron in H-atom in nth energy level (En)=−21.7×10−12n2
Energy required for removing the electron from nth energy level (ΔE) = 0−(−21.7×10−12n2)
= 21.7×10−12n2
Energy required to remove the electron from 2nd orbit for H-atom =21.7×10−124=5.42×10−12 erg
Also ΔE=hcλ λ=6.626×10−27×3×1085.42×10−12 =3.67×10−7m
or 3.67×10−5 cm