Difference between revisions of "Electromagnetic spectrum"

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The electromagnetic spectrum is often shown as a range of [[Photons|photon]] energies and their names. Since, for electromagnetism, energy = frequency times a constant, as frequency goes up the energy of a photon goes up, so the highest energy photons have the highest frequency. Apparently the equation E=hv was just a guess by Max Plank, at the time there was no experimental or theoretical justification for the equation. A photon with a frequency of 1 Hz would thus have an energy of h times 1/second which is equal to 6.62607015×10<sup>−34</sup> Joule.
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The electromagnetic spectrum is often shown as a range of [[Photons|photon]] energies and their names. Since, for electromagnetism, energy = frequency times a constant, as frequency goes up the energy of a photon goes up, so the highest energy photons have the highest frequency. Apparently the equation E=hv was just a guess by Max Plank, at the time there was no experimental or theoretical justification for the equation. A photon with a frequency of 1 Hz would thus have an energy of h times 1/second which is equal to 6.62607015×10<sup>−34</sup> Joules.
  
 
[[File:EM_spectrum.png|800px]]
 
[[File:EM_spectrum.png|800px]]

Revision as of 14:24, 22 March 2020

The electromagnetic spectrum is often shown as a range of photon energies and their names. Since, for electromagnetism, energy = frequency times a constant, as frequency goes up the energy of a photon goes up, so the highest energy photons have the highest frequency. Apparently the equation E=hv was just a guess by Max Plank, at the time there was no experimental or theoretical justification for the equation. A photon with a frequency of 1 Hz would thus have an energy of h times 1/second which is equal to 6.62607015×10−34 Joules.

EM spectrum.png