Mention the change in wave length of the photon after it collides with free electron?? Is the rule of particle can be applied here?

Jadon Johnson

Jadon Johnson

Answered question

2022-11-18

Mention the change in wave length of the photon after it collides with free electron?? Is the rule of particle can be applied here?

Answer & Explanation

kavdawg8w8

kavdawg8w8

Beginner2022-11-19Added 20 answers

You are probably familiar with the relation
c = λ f
where c is the speed of light, λ the wavelength and f the frequency of a photon.
The general formula for Compton scattering is normally given as
λ = λ C ( 1 cos α ) + λ
where λ is the wavelength of the scattered photon, λ the initial wavelength, λ C the Compton wavelength λ C = h m e c and α is the angle at which the photon scatters.
From this formula, we can see that the wavelength of a photon increases when it scatters at an electron. To visualize, the photon gives some of its energy to the electron. The energy of a photon is given as
E = h f
or E = h c λ so if the wavelength increases, the energy of the photon decreases. To illustrate further, if you shoot blue light at a stationary electron, you end up with scattered red light.
For the case of electromagetic radiation (light!), you can convert between frequency and wavelength using c = λ f. Those formulas combined allow you to find the frequency and wavelength of a scattered photon.

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