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There are several types of mixtures. One with particles that are larger than a solute and solution is a colloid, where the particles remain in suspension.
suspension solution does not allow the light to pass through it because particles present in the solution are larger in the size so they absorb the light and they obstruct the path. thus the light does not pass through it.
Both solutions and suspensions are mixtures of two or more components. However, the particles in suspension are larger and will eventually settle out, where the particles in a solution are on the atomic or molecular level.
Colloids are particles smaller than those in a suspension. The basic difference between a colloid and a suspension is the diameter of the particles dispersed. Colloids are generally 1 to 5 nanometers while suspensions are usually 1000 nanometers. Colloids are usually harder to detect / see with the naked eye or microscope for this reason. Gelatin, butter, smoke, and fog are examples. A muddy delta is an example of a suspension.
Solutions are mixtures on an atomic or molecular level; the mixture is so fine grained that you could never see it with a microscope. All you would see is a homogeneous substance. Colloidal suspensions contain tiny particles that you might be unable to see with the unaided eye, but which you could see with a microscope.
Particles in a suspension are larger than the particles of a solution, but they are not always so small that they cannot be easily seen with the eye.
The mixture of pepper and water is a suspension because of the particles. You see, a suspension is a mixture in which particles can be seen and easily separated by settling or filtration. Unlike a solution, a suspension does not have the same properties throughout. It contains visible particles that are larger than the particles in solutions or colloids.
There are several types of mixtures. One with particles that are larger than a solute and solution is a colloid, where the particles remain in suspension.
A mixture in which small particles of a substance are dispersed throughout a gas or liquid. If a suspension is left undisturbed, the particles are likely to settle to the bottom. The particles in a suspension are larger than those in either a colloid or a solution. Muddy water is an example of a suspension e.g. the residue at the bottom of the container
A mixture in which small particles of a substance are dispersed throughout a gas or liquid. If a suspension is left undisturbed, the particles are likely to settle to the bottom. The particles in a suspension are larger than those in either a colloid or a solution. Muddy water is an example of a suspension e.g. the residue at the bottom of the container
The dispersed particles of a suspension are larger than the particles of a colloid.
A mixture in which small particles of a substance are dispersed throughout a gas or liquid. If a suspension is left undisturbed, the particles are likely to settle to the bottom. The particles in a suspension are larger than those in either a colloid or a solution. Muddy water is an example of a suspension e.g. the residue at the bottom of the container
suspension solution does not allow the light to pass through it because particles present in the solution are larger in the size so they absorb the light and they obstruct the path. thus the light does not pass through it.
a colloid contains larger particles than a solution. the particles are still too small to be seen easily, but are large enough to scatter a light beam
a colloid contains larger particles than a solution. the particles are still too small to be seen easily, but are large enough to scatter a light beam
Both solutions and suspensions are mixtures of two or more components. However, the particles in suspension are larger and will eventually settle out, where the particles in a solution are on the atomic or molecular level.
A suspension is a nonhomogeneous liquid-solid mixture with particles larger then 1 micrometer.