in reflection, angle of incidence is equal to angle of refraction....
where as in scattering, there is no such law....:)
Scattering.
It is called scattering light if it is in random directions, or refraction if the light changes direction.
When light bounces off a surface, it undergoes reflection. The angle of incidence (angle at which light strikes the surface) is equal to the angle of reflection (angle at which light bounces off the surface). The Law of Reflection governs this interaction between light and surfaces.
The laws of reflection are based on the reflection of light from a smooth, flat surface. In the case of irregular reflection, where the surface is rough or uneven, the laws of reflection may not hold true as the angle of incidence may not be equal to the angle of reflection. Irregular reflection results in scattering of light in multiple directions.
Rayleigh scattering occurs when particles are much smaller than the wavelength of light, leading to scattering in all directions and a strong dependency on the fourth power of the inverse of the wavelength. Mie scattering, on the other hand, involves particles that are similar in size to the wavelength of light, leading to scattering across a wide range of angles and less dependency on the wavelength.
as such there is no soecific difference..
Scattering
the difference is that in translation you slide the figure and in reflection you reflect the figure across the reflection line :)
Scattering.
Nothing
scattering
nonsence
scattering
It is called scattering light if it is in random directions, or refraction if the light changes direction.
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.
None. They are the same angle.
You have not given the alternatives, but this can be called reflection or scattering.