A photon with a frequency of 5.48 × 10^14 hertz is emitted when an electron in a
mercury atom falls to a lower energy level.

Calculate the energy of this photon in joules. [Show all work, including the equation and substitution with
units.]

Using the Planck's Equation, comes:

[tex]E=hf \\ E=6.63*10^{-34}*5.48*10^{14}*J \\ \boxed {E=36.3324*10^{-20}*J}[/tex]

If you notice any mistake in my english, please let me know, because i am not native.

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Eduard22sly Eduard22sly · Answer 2 · 2022-06-03T12:15:56+02:00

The energy of the photon in joules, given that it's has a frequency of 5.48×10¹⁴ Hz is 36.33×10¯²⁰ J

Data obtained from the question

Frequency (f) = 5.48×10¹⁴ Hz
Energy (E) =?

How to determine the energy

Planck's constant (h) = 6.63×10¯³⁴ Js
Frequency (f) = 5.48×10¹⁴ Hz
Energy (E) =?

The energy of the photon can be obtained as follow:

E = hf

E = 6.63×10¯³⁴ × 5.48×10¹⁴

E = 36.33×10¯²⁰ J

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A photon with a frequency of 5.48 × 10^14 hertz is emitted when an electron in a mercury atom falls to a lower energy level. Calculate the energy of this photon in joules. [Show all work, including the equation and substitution with units.]

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Data obtained from the question

How to determine the energy

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A photon with a frequency of 5.48 × 10^14 hertz is emitted when an electron in a
mercury atom falls to a lower energy level.

Calculate the energy of this photon in joules. [Show all work, including the equation and substitution with
units.]