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Using equation e=(hcrh)(1n2)=(−2.18×10−18j)(1n2), calculate the energy of an electron in the hydrogen atom when n= 5.
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Using equation e=(hcrh)(1n2)=(−2.18×10−18j)(1n2), calculate the energy of an electron in the hydrogen atom when n= 5.

User Jacek Glen
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2 Answers

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8.72 x 10^(-20)J

Hope this helps!! ( If not sorry!)
User Diligent
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4 votes

The given formula for energy is:


E = hcR_(H)((1)/(n^(2))) (1)

where,

h = planck's constant

c =
(1)/(\lambda ) =
\\u (frequency)

n = energy level

Substitute the given value of n and
hcR_(H) in formula (1)


Energy = (-2.18 * 10^(-18 )J)* ((1)/(5^(2)))

=
(-2.18 * 10^(-18 )J)* ((1)/(25))

=
(-2.18 * 10^(-18 )J)* (0.04)

=
-0.0872 * 10^(-18 )J

=
-8.72 * 10^(-20 )J

Thus, energy of an electron in the hydrogen atom when n = 5 is
-8.72 * 10^(-20 )J

User Clinton Ward
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6.7k points
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