no
They are called "colloids". These have large particles that are suspended in a solution.
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.
Well, quite a lot takes place when light is shone on a piece of glass. This has a lot to do with the surface of the glass (how clean it might be), and also with the structure of the glass itself. The light will tend to scatter off the glass -if the glass itself is reflective, or if there are particles on the surface which are reflective. It will also diffract through the glass, causing the light to bend. This is similar to the way that light diffracts through water, but to a MUCH smaller degree if the glass is uniform, thin, and smooth. The glass may also warm slightly, based on the intensity and angle of the light incident on the glass. There are also several other effects, but I hope that this has covered what you wanted to know.
"It is a press, certainly, but a press from which shall flow in inexhaustible streams...Through it, God will spread His Word. A spring of truth shall flow from it: like a new star it shall scatter the darkness of ignorance, and cause a light heretofore unknown to shine amongst men" - Johannes Gutenberg
They would scatter them by hand over the fields after they had been plowed by oxen.
its a solution
A solution with uniformly sized particles smaller than the wavelength of light will not scatter light.
they are able to scatter light
they are able to scatter light
They are called "colloids". These have large particles that are suspended in a solution.
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.
a solution!
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.
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.
No, salt solution does not typically show the Tyndall effect because the particles in a salt solution are dissolved at the molecular level and are too small to scatter light significantly. The Tyndall effect is typically observed with colloidal solutions where the particles are larger and can scatter light.
The Tyndall effect is observed when a beam of light passes through a colloid, causing the light to scatter and become visible. This phenomenon occurs due to the particles in the colloid being large enough to scatter light, unlike in a true solution where particles are too small to scatter light. The Tyndall effect is commonly used to determine if a mixture is a true solution or a colloid.