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A solution that is completely transparent and has uniform refractive index throughout will not scatter light. This means that the particles in the solution do not cause light to deviate from its path as it passes through. Examples of such mixtures could be pure water or a clear oil.
What else can I help you with?
Can a homogeneous mixture 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.
Which mixture would not scatter light?
A solution with uniformly sized particles smaller than the wavelength of light will not scatter light.
Mixture containing particles that are too small to be seen esily but are large enough to scatter a light beam is?
The mixture containing particles that are too small to be seen easily but large enough to scatter a light beam is a colloidal mixture. These particles are known as colloids and they are intermediate in size between true solutions and suspensions.
What happens when a suspension of chalk and water is placed in a strong beam of white light?
The particles in the suspension will scatter the light, making the mixture appear cloudy or opaque. This is known as the Tyndall effect, where the dispersed particles reflect and scatter the light rays, causing them to be visible.
A mixture of particles that are large enough to scatter or block light?
This mixture would likely be a suspension, where larger particles are suspended in a liquid, causing the scattering or blocking of light as it passes through. Examples of suspensions include muddy water or fog.
What is a mixture that does not scatter light?
its a solution
Can a homogeneous mixture 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.
Which mixture would not scatter light?
A solution with uniformly sized particles smaller than the wavelength of light will not scatter light.
How tyndall effect can help you determine if a mixture is a colloid or not?
The Tyndall Effect can help determine if a mixture is a colloid by observing if the mixture scatters light. Colloids will scatter light, causing the light beam to become visible when passing through the mixture. If the mixture does not scatter light, it is likely not a colloid.
Which type of mixture has particles large enough to scatter light?
This is a colloidal mixture.
What is a homogeneous mixture that contains particles that scatter light?
They are called "colloids". These have large particles that are suspended in a solution.
What is a homogeneous mixture whose particles are too small to reflect or scatter light?
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.
What kind of mixture has medium size particles settles out on standing and scatters 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.
A homogeneous mixture whose particles are too small to reflect or scatter light?
a solution!
What mixture would not scatter light?
A homogenous mixture with particles that are much smaller than the wavelength of light would not scatter light. This is because there would be minimal interaction between the particles and the light waves, allowing the light to pass through without being scattered.
How heterogeneous mixture with larger particles that never settle and scatter light are called?
it's the answer
what doesnt settle or scatter light?
Substances that do not settle or scatter light are typically transparent or translucent materials. These materials allow light to pass through them with minimal interference. Examples of such materials include clear glass, air, and water. When light passes through these substances, it does not scatter or settle; instead, it continues in a relatively straight path. This is in contrast to opaque materials, which absorb or reflect light, causing it to scatter or settle.
