What is the difference between suspension solution and colloid

Individual Particles cannot be seen by the naked eyes. Particles of suspension can be seen by the naked eye. Particles of a colloid are too small to be seen by the naked eye. Particles are stable ,. Particles are not stable ,. Particles of solution do not scatter light. Particles are large enough to scatter a beam of light. Particles pass through filter paper, hence particles cannot be separated by filtration.

Particles are large, they do no pass through filter paper, hence particles can be separated by filtration. A hydrocolloid can simply be defined as a substance that forms a gel when it comes in contact with water.

Such substances include both polysaccharides and proteins. Toggle navigation EDinformatics. Science of Fluids. What are the components of blood? Size of the particles in diameter nm. Diffusion of the solution through parchment paper Diffusion of the particles of the true solutions is simple and smooth through parchment and filter paper as well. Particles of the colloidal solutions do not diffuse or pass through parchment paper, but it is easy through filter paper.

Particles of the suspension do not pass through parchment or filter paper. Sedimentation Will, not sediment. Particles or colloids will not sediment. Particles will get sediment. Visibility of particles In true solutions, particles are invisible through the naked eye. The particles in the colloidal solution are visible through the electron microscope, but not through the naked eye. The particles in the suspension are visible through naked eyes as well as under the electron microscope.

Tyndall effect The true solution does show the Tyndall effect. Tyndall effect is shown by the colloids in the colloidal solution. The particles show Tyndall effect. Brownian Movements Particles in the true solution do show Brownian movements.

Particles in the colloidal solution show Brownian movements. The particles show Brownian movements. The homogenous mixture of two or more substances, where the solute is dissolved in the solvent is called the true solution. Here the size of the particles is less than 1 nm.

The example of the true solution is when sugar or salt dissolved in water. The particles cannot be filtered or separated through filter paper or parchment paper. Even the particles are invisible through naked eyes. As the mixture is in the liquid phase and transparent, it allows the light to pass through the solution without getting scattered.

When the solution is said as homogenous, it means the particles are evenly distributed in the solution and do not get settled at the bottom of the container. As the amount of particles present in per unit volume of the solution is equal everywhere, the particle density is higher.