Colloids

This section focuses on electromagnetic waves, different types of electromagnetic waves and their practical applications.

The microscopic, distributed insoluble particles of one material suspended in another are colloids (colloidal solutions and colloidal systems). Particles suspended in a colloid vary in size from one to a thousand nanometers (10-9 metres). The suspended particles of a combination must not sink to the bottom of the container to be considered a colloid.

In the thick fog, sometimes, water droplets may appear. Colloidal substances like fog are also found in the atmosphere. Water molecules abound in the thick mist. In the same way, you’re certain to come into contact with several colloids in your daily life. This article focuses on colloids’ many uses and properties.

Overview of colloids

There are two substances in a colloidal combination, and one of them has tiny particles in it. It is the dispersion medium that holds the dispersed phase in place, whereas the dispersed phase is the material that holds the dispersed phase in place. Water (liquid) is the dispersed phase in fog, whereas other gases make up the dispersion medium. Dispersed phase particles in colloids are so small that we can’t see them with the naked eye.

Examples of colloids

There are several colloidal solutions to be found in our surroundings. There are several colloids in foods, including cakes, bread, butter and ice cream. This is only a small sample of the colloids that make up the environment.

Unique characteristics of colloids

  • A colloid is a fleeting concoction.
  • Colloidal particles are very small. Their particles range in size from one to a thousand nanometers.
  • Colloidal solutions are very stable because they do not settle after being left undisturbed for an extended period of time.
  • They cannot be separated by filtration.
  • Centrifugation is one option for separating them.
  • The Brownian motion may be seen in colloidal particles.

Uses and benefits of colloids

Colloids are vitally important because of their ubiquitous presence in nature and our everyday lives. Some of the most important uses of colloids are discussed in the following sections.

Industrial uses of colloids

Pharmaceuticals: Because the body’s tissues more easily absorb them, colloidal medicines are more effective.

Wastewater treatment: Colloidal particles of filth, muck, and other organic materials have an electric charge. When sewage water is passed over the plates with high potential, the colloidal particles coagulate, and the suspended matter is removed.

Water purification: Alum and other electrolytes may precipitate colloidal contaminants in water. Negatively charged contaminant colloidal particles are neutralised by Al3+ ions and sink to the bottom, enabling the decantation of clean water.

Soap’s ability to clean surfaces: A colloidal soap solution has a high surface area to volume ratio. By adsorbing or emulsifying the oily material that has been attached to the fabric, it eliminates dirt particles.

The formation of deltas: Colloidal particles of clay, sand and a range of other things may be found in river water. Seawater has a large number of dissolved electrolytes. The colloidal particles in river water coagulate and settle at the contact site when they come into contact with saltwater. As a consequence, the level of the riverbed increases, which causes the water to flow in a different direction, ultimately forming a delta.

Smoke precipitation: Smokescreens are used to hide things with smoke clouding. Generally used to cover the movement of troops, a smokescreen is also a colloidal system in which titanium oxide particles are dispersed into the air.

Photographic methods: Glass plates, celluloid films, or paper are coated with a colloidal solution of silver bromide in gelatin to create sensitive plates for photography.

Human-induced rain: Spraying colloidal dust or sand particles with opposing charges over a cloud can make artificial rain. This occurs because of the neutralisation and coagulation of colloidal water droplets in the cloud.

The manufacture of rubber: Latex is composed of rubber particles with a negative charge suspended in a colloidal fluid. The process may make rubber of latex coagulation. Rubber-plated things are created by using the rubber-plated object as an anode in a rubber plating solution and depositing negatively charged rubber particles on it.

Examples of colloids in nature

Particles that are smaller than the wavelength of light cause the light to scatter. The blue colour of the sky is caused by tiny particles in the atmosphere scattering light (dust and water particles). Dispersed blue light reaches the eye, and a blue sky is seen in its reflection.

Due to their smaller size than the wavelength of light, colloidal pollutants in seawater scatter blue light. The blue colour of the ocean is due to colloids scattering light.

Fog, mist, and rain are colloidal. Microdroplets form when moisture in the air condenses on dust particles during the winter. When these droplets condense as mist or fog because of their colloidal nature, they float in the air.

Millions of tiny water droplets float through the air in clouds, making them a kind of aerosol (aerosols). When it comes to clouds, colloids are the answer. As they condense in the high atmosphere, colloidal water droplets grow larger and larger until they finally fall as rain. They have electricity flowing through them. Condensation happens when dust particles are subjected to temperatures lower than their dew point. Occasionally, rain falls when two types of clouds collide.

Conclusion

A colloid is a combination of tiny particles of one substance spread in a different substance’s dispersion medium. The lubricants, lotions, toothpaste, and coatings are just a few of the many commercial products that employ colloids as thickening agents.

Furthermore, painting and ink manufacturing relies on colloids. Pens with ballpoint refills employ gel ink, which is a liquid-solid colloid. Coagulation using aluminium sulphates (alum) and iron sulphates removes suspended contaminants from natural water (ferric sulphates).

Most medications are colloidal. Colloidal gold and calcium are infused into the body to keep muscles alive. Topical eye ointment, Argyrol (silver sol). Other colloids used in medicine include albumin, hetastarch, and dextran.

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