in reflection, angle of incidence is equal to angle of refraction....
where as in scattering, there is no such law....:)
your mom is the answer to this question
Rayleigh scattering is mainly depends upon wavelength and mie scattering is less depend on wavelenth
You have not given the alternatives, but this can be called reflection or scattering.
reflection - it bounces off a substance refraction - the course of movement is bent
the difference between reflection and reflection, is nothing. they basically mean the same thing unless you are thinking of it in other terms. Answer Do you mean reflection and refraction, if so then reflection is the immage you see reflected back at you when you look in a mirror. Refraction is when a light wave is bent. When you put a straw in a glass of water, you will notice that the part of the straw in the water is out of line with the part of the straw above the water.
your mom is the answer to this question
Rayleigh scattering is mainly depends upon wavelength and mie scattering is less depend on wavelenth
Scattering
The scattering of light really is called scattering. If you are referring to a scattered reflection this can be called a diffuse reflection. Are you asking about different types of scattering such as Rayleigh scattering? Rayleigh scattering is an elastic type of scattering most well known for the blue color of the sky.
as such there is no soecific difference..
the difference between refraction and reflection is that in refraction light bends and in reflection it is reflected
Nothing
scattering
the difference is that in translation you slide the figure and in reflection you reflect the figure across the reflection line :)
Specular reflection is when light rays reflect off a surface uniformly in a single direction, like a mirror. Diffuse reflection is when light rays reflect off a surface in many different directions, like a matte surface. Specular reflection creates a clear image, while diffuse reflection scatters light in all directions.
scattering
Raman scattering involves the SCATTERING of electromagnetic radiation by molecules, not atoms Fluorescence emission follows an absorption process