A particular form of electromagnetic radiation has a frequency of 8.11 x 10^14 hz. What is the energy in joules of one quantum of this radiation?

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asked May 9, 2017 131k views

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Rytisk · Answer 1 · 2017-05-09T05:18:29+0000

Answer:

Energy,
$E=5.37* 10^(-19)\ J$

Step-by-step explanation:

The frequency of the electromagnetic radiation,
$f=8.11* 10^(14)\ hz$

We need to find the energy of one quantum of this radiation. The energy and frequency follows the following relationship as :

E=h* f

E=6.63* 10^(-34)* 8.11* 10^(14)

$E=5.37* 10^(-19)\ J$

So, the energy of one quantum of this radiation
$5.37* 10^(-19)\ J$ . Hence, this is the required solution.

Sekoul · Answer 2 · 2017-05-14T21:30:37+0000

E = hxf, où h = constante de Planck = 6,626 x 10 ^ -34Js

E = 6,626 x 10 ^ -34 x 8.11 x 10 ^ 14 = 5.373 10^ -19 J

Hope this answers your question, Kimmyers14!

A particular form of electromagnetic radiation has a frequency of 8.11 x 10^14 hz. What is the energy in joules of one quantum of this radiation?

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