How do I solve for frequency from energy of two photons?
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Answer:
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How to calculate the energy of a photon
The Planck's equation is
E = h * c / λ = h * f,
where
E is the energy of a photon
h is the Planck constant,
c is the speed of light,
λ is the wavelength of a photon,
f is the frequency of a photon.
This equation gives us an energy of a single, indivisible, quanta of light and we can think of light as a collection of particles. The opposite is also true. We can think about ordinary particles, like electrons, as waves. Check De Broglie wavelength calculator to learn more about this concept.
Step-by-step explanation:
With this Photon Energy Calculator, you can explore the relation between the wavelength and frequency of the photon and its energy. Read the text below to find out how to calculate the energy of a photon and what is the Planck's equation.
The light seems to us to have a wavy character. It diffracts, interferes and refracts. However, at a microscopic level, it is carried by a minuscule quantum of energy called the photon. The energy of a photon depends solely on its wavelength or frequency. Because the light travels, well, at the speed of light we can use either frequency of wavelength to describe it. You can check the Wavelength Calculator to explore the relationship between the wavelength and frequency.
Coming back to photons, what is their energy? The energy of a single photon is a tiny number given by the Planck's equation. The Planck's equation relates the frequency of a photon to its energy through a Planck constant h equal to
h = 6.6261 × 10−34 J*s
The Planck constant is in the units (energy)*(time) and you can think of it as a conversion factor from energies to frequencies.