How are sol solution and suspension different from each other

Sol, solution and suspension are different from each other in the following ways: Sol Solution Suspension The size of solute particles is between 1 nm to 100 nm. The particles cannot be seen with naked eyes. The size of solute particles is less than 1 nm (10 -9 m) hence, they cannot be seen with naked eyes. The size of solute particles is more than 100 nm. The particles of suspension can be seen with naked eyes. These are quite stable. The particles do not settle down when left undisturbed. The solute particles do not settle down when left undisturbed, that is, a solution is stable. The solute particles settle down when a suspension is left undisturbed therefore, a suspension is unstable. Particles are big enough to scatter a beam of light passing through it and make its path visible. Because of very small particle size, they do not scatter a beam of light passing through the solution. So, the path of light is not visible. The particles of a suspension scatter a beam of light passing through it and make its path visible. Solute particles are able to pass through the filter paper and cannot be separated through filtration. The solute particles pass through the filter paper and cannot be separated from the mixture by the process of filtration. Solute particles do not pass through filter paper. They can be separated from the mixture by the process of filtration.

SOLUTION: 1.Homogenous mixture. 2.Particles are smaller than 1 nm ,they are not visible to naked eye. 3.They do not scatter a beam of light. 4. Solute particles cannot be separated by the process of filtration and sedimentation. SOL: 1.Heterogenous mixtures. 2.The size of the particles is to small to seen by naked eye. 3.They scatter a beam of light passing through them. 4.Solute particles cannot be separated by the process of filtration and sedimentation. SUSPENTION: 1.Heterogeneous mixtures. 2.Particles are visible to naked eye. 3.They scatter a beam of light passing through them. 4.Solute particles can be separated by the process of filtration and sedimentation.

S o l u t i o n Solution : • Suspension is a heterogeneous mixture. • The particles of a suspension can be seen by the naked eye. Their size is larger than 100 nm in diameter. • The particles of a suspension scatter a beam of light passing through it and make its path visible. • The solute particles settle down when a suspension is left undisturbed, i.e., a suspension is unstable. • They can be separated from the mixture by the process of filtration.

A sol is a form of colloidal suspension which has particles with dimensions around 1 nanometer to 1 micrometre. A solution is a mixture of two or more substances that are in the liquid state. A suspension is a turbid dispersion that has large particles. How are sol solution and suspension between from each other? The particles of a suspension scatter a beam of light passing through it and make its path visible. The solute particles settle down when a suspension is left undisturbed, i.e., a suspension is unstable. They can be separated from the mixture by the process of filtration. How are sol solution and suspension different from each other for Class 9? The particles in a suspension may be separated by filtration unlike those in a colloid. Colloids are able to scatter light, but suspensions cannot transmit light. Particles in a suspension can be seen by the naked eye, but those in a colloid must be viewed using a light microscope. What is the difference between homogeneous and heterogeneous mixtures give examples? By combining two or more substances, a mixture is produced. A homogeneous solution tends to be identical, no matter how you sample it. Homogeneous mixtures are sources of water, saline solution, some alloys, and bitumen. Sand, oil and water, and chicken noodle soup are examples of heterogeneous mixtures. What is the difference of solute and solvent? The solute is the substance that is being dissolved, while the solvent is the dissolving medium. Solutions can be ...

Sol is a heterogeneous mixture. In this mixture, the solute particles are so small that they cannot be seen with the naked eye. Also, they seem to be spread uniformly throughout the mixture. The Tyndall effect is observed in this mixture. For example: milk of magnesia, mud Solution is a homogeneous mixture. In this mixture, the solute particles dissolve and spread uniformly throughout the mixture. The Tyndall effect is not observed in this mixture. For example: salt in water, sugar in water, iodine in alcohol, alloy Suspensions are heterogeneous mixtures. In this mixture, the solute particles are visible to the naked eye, and remain suspended throughout the bulk of the medium. The Tyndall effect is observed in this mixture. For example: chalk powder and water, wheat flour and water For more answers visit to website: Sol They are heterogeneous in nature. They scatter a beam of light and hence show Tyndall effect. They are quite stable. Solution They are homogeneous in nature. They do not scatter a beam of light and hence do not show Tyndall effect. Examples of solution are: salt in water, sugar in water. Suspension They are heterogeneous in nature. They scatter a beam of light and hence show Tyndall effect. Examples of suspension are: sand in water, dusty air.

Define true solution suspension and colloidal solution Give two examples of each? A true solution is a homogeneous mixture of at least two substances in which the solute has a particle size of less than 1 nm. Example: a simple solution of sugar in water. A colloidal solution is a heterogeneous mixture in which the suspension is between 1 and 1000 nm. Example: smoke from a fire.

Sol(Colloidal solution) Solution Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.They are quite stable Solution Suspension 1.They are heterogeneous in nature 1.They are homogeneous in nature 2. They do not scatter a beam of light and hence do not show Tyndall effect. 3. They are very stable Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.they r unstable. plz react thanks Sol(Colloidal solution) Solution Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.They are quite stable Solution Suspension 1.They are heterogeneous in nature 1.They are homogeneous in nature 2. They do not scatter a beam of light and hence do not show Tyndall effect. 3. They are very stable Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.they r unstable. plz react thanksSol(Colloidal solution) Solution Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.They are quite stable Solution Suspension 1.They are heterogeneous in nature 1.They are homogeneous in nature 2. They do not scatter a beam of light and hence do not show Tyndall effect. 3. They are very stable Suspension 1.They are heterogeneous in nature 2. They scatter a beam of light and hence show Tyndall effect. 3.they r unstable. plz react thank...