Question #29aac

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Question #29aac

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Answer 1 · 2017-10-23T21:04:16

$f = 3.085 \times 10^{15} H z$ $f = 3.085xx10^15Hz$

Explanation:

The energy from electrons rising and falling between shells in a hydrogen atom is given by the Rydberg formula.

$DeltaE = -E_0(1/n_f^2 - 1/n_i^2)$

where $DeltaE$ is the change in energy, $E_0$ is the Rydberg constant, $2.18xx10^-18"J"/"H atom"$ , $n_f$ is the final energy level and $n_i$ is the initial energy level.

Plugging in the numbers, this gives us

$DeltaE = -2.18xx10^-18(1/1^2 - 1/4^2) =$
$-2.044xx10^-18"J"/"H atom"$

This energy is lost via photons emitted from the electrons. Energy of photons is given by

$E = hf = 6.626 xx 10^-34"Js" xx f$

so

$f = E/h = (DeltaE)/h = (2.044 xx 10^-18"J"/"H atom")/(6.626xx10^-34"Js")$
$= 3.085xx10^15"s"^-1$
$f=3.085xx10^15"Hz"$

This is the frequency of light given off by the hydrogen atom.

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Question #29aac

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