Scattering of light is called dispersion .
One can find information on light scattering on the Wikipedia website. There is a comprehensive description of light scattering on that page including descriptions of the different types of light scattering.
Mie scattering and Rayleigh scattering are both processes that cause light to scatter, but they differ in how they affect the scattering of light. Mie scattering occurs when particles are larger than the wavelength of light, leading to more uniform scattering in all directions. On the other hand, Rayleigh scattering occurs when particles are smaller than the wavelength of light, causing more intense scattering in the forward direction and less in other directions.
There are three main types of scattering: Rayleigh scattering, Mie scattering, and non-selective scattering. Rayleigh scattering occurs when light interacts with particles smaller than the wavelength of light, causing blue light to scatter more than other colors. Mie scattering happens when light interacts with particles similar in size to the wavelength of light, scattering all colors equally. Non-selective scattering occurs when light scatters in all directions regardless of particle size. These types of scattering affect the behavior of light in different mediums by influencing the color, intensity, and direction of light as it travels through the medium.
the scattering of light by colloids is known as tyndall effect. it is named after the scientist who discovered it.
Rayleigh scattering fluorescence is a process where molecules in the atmosphere absorb and re-emit light, causing the scattering of light in different directions. This phenomenon contributes to the overall scattering of light in the atmosphere, which is why the sky appears blue during the day.
Raman scattering and Rayleigh scattering are both types of light scattering, but they differ in how they interact with molecules. Rayleigh scattering occurs when light interacts with particles smaller than the wavelength of light, causing the light to scatter in all directions. Raman scattering, on the other hand, involves a change in the energy of the scattered light due to interactions with molecular vibrations. This results in a shift in the wavelength of the scattered light, providing information about the molecular structure of the material.
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.
Mie scattering occurs when particles are larger than the wavelength of light, causing light to scatter in all directions. Rayleigh scattering occurs when particles are smaller than the wavelength of light, causing shorter wavelengths to scatter more than longer wavelengths. Mie scattering results in a more uniform scattering pattern, while Rayleigh scattering causes blue light to scatter more than red light, leading to the sky appearing blue.
the amount of scattering does not depend on wavelength..
Light scattering is referred to as a form of scattering in which light is the form of propagating energy which is scattered. Deflection of a ray from a straight path can be thought as light scattering.
Rayleigh scattering occurs when light interacts with particles much smaller than the wavelength of light, causing shorter wavelengths (like blue and violet) to scatter more than longer wavelengths. Mie scattering, on the other hand, happens when light interacts with particles closer in size to the wavelength of light, causing all wavelengths to scatter equally.