The phenomenon is called Rayleigh scattering. It occurs when light interacts with particles that are much smaller in size than the wavelength of the light, causing the light to be scattered in all directions. This is why the sky appears blue, as shorter blue wavelengths are scattered more than longer wavelengths like red.
A solution with uniformly sized particles smaller than the wavelength of light will not scatter light.
Yes, suspension can scatter light. When light passes through a suspension, the particles in the suspension can cause the light to scatter in different directions due to interactions with the particles. This scattering can be used to determine properties of the suspension, such as particle size and concentration.
Yes, a homogeneous mixture can scatter light if the size of the particles in the mixture is similar to the wavelength of light. This phenomenon is known as the Tyndall effect, where the light is scattered as it passes through the mixture due to interactions with the particles.
Light waves can scatter when they encounter particles or irregularities in a medium. This scattering can occur due to interactions with the electrons in the particles, causing the light to change its direction and spread out in different directions. The degree of scattering can depend on factors like the size of the particles and the wavelength of the light.
Particles in the atmosphere scatter light and cause dispersion.
They are called "colloids". These have large particles that are suspended in a solution.
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Cause they do
A solution with uniformly sized particles smaller than the wavelength of light will not scatter light.
Yes, suspension can scatter light. When light passes through a suspension, the particles in the suspension can cause the light to scatter in different directions due to interactions with the particles. This scattering can be used to determine properties of the suspension, such as particle size and concentration.
A solution is a homogeneous mixture whose particles are too small to reflect or scatter light. A colloid is a heterogeneous mixture containing particles that are small enough to stay suspended but large enough to scatter light.
A colloid is a type of mixture in which medium-sized particles do not settle out on standing and scatter light. However, a suspension is a type of mixture with medium-sized particles that do settle out on standing and can scatter light.
Yes, a homogeneous mixture can scatter light if the size of the particles in the mixture is similar to the wavelength of light. This phenomenon is known as the Tyndall effect, where the light is scattered as it passes through the mixture due to interactions with the particles.
Light waves can scatter when they encounter particles or irregularities in a medium. This scattering can occur due to interactions with the electrons in the particles, causing the light to change its direction and spread out in different directions. The degree of scattering can depend on factors like the size of the particles and the wavelength of the light.
Particles in the atmosphere scatter light and cause dispersion.
Yes, colloids scatter light. Colloids are mechanical mixtures; all mechanical mixtures scatter light. Solutions are the only mixtures that do not scatter light. The scattering of light by mixtures is known as the Tyndall effect, btw.
This is a colloidal mixture.