zabr 7mar
compton effect
The Compton Effect was created on 2007-06-05.
No change in frequency or wavelength.
There is no connection between wavelength and amplitude. Either of them can change without any effect on the other.
the frequency of the wavelength
The increase in wavelength of electromagnetic radiation, especially of an x-ray or a gamma-ray photon, scattered by an electron.
compton effect
The Compton Effect was created on 2007-06-05.
No change in frequency or wavelength.
There is no connection between wavelength and amplitude. Either of them can change without any effect on the other.
the frequency of the wavelength
Raman effect is change in the wavelength of light that occurs when a light beam is deflected by molecules.
It doesn't. There's no connection between wavelength and amplitude. One of them can change without any effect on the other one.
The question I'll answer is "How is the Compton Effect best explained by the particle nature of light?" When x-rays are sent into a metal, some of them are scattered out at an angle. When this happens, their wavelength changes, and this change depends on the angle at which they come out. Deriving this formula is VERY easy if we assume that the scattered x-rays are particles hitting an electron within the metal. It is impossible to do so by assuming the x-rays are simple EM waves with a very high frequency.
photo electric effect,compton's effect
photo electric effect,compton's effect
doppler effect