Main Difference – Colloid vs Suspension
Colloids and suspensions are both considered as mixtures where the components are not chemically bonded to each other. The main difference between colloid and suspension lies in the size of particles. Colloid particles are much smaller than suspension particles. Due to this size difference, colloid particles can be either homogeneous or heterogeneous at given conditions, whereas suspensions are always heterogeneous.
This article explains,
1. What are Colloids
– Definition, Properties, Examples
2. What are Suspensions
– Definition, Properties, Examples
3. How to Distinguish Colloids from Suspensions
4. What is the difference between Colloid and Suspension
What are Colloids
The size of colloid particles ranges from 1 nm to 200 nm. The colloidal particles which are dispersed in the dispersion medium are called dispersed phase. Colloid particles are prevented from settling down by Brownian motion. These systems are mostly translucent as light is scattered by particles. Colloids are not easily separated from the dispersion medium. Techniques such as centrifugation, dialysis, and ultrafiltration are required to separate colloids. Colloid particles can be molecules or molecular aggregates. In a colloidal system, phase separation can happen, but not readily. Two phases may separate by leaving to stand for a long time. Phase separation occurs in lyophobic colloidal systems where the dispersed phase does not have a great affinity for the dispersion medium. Lyophilic systems, in contrast, do not show phase separation as the dispersed phase is physically attracted to the dispersion medium. Colloid particles pass through filter papers.
Examples of Colloidal Systems
|
Dispersed Phase – Dispersion Medium |
Colloidal System: Examples |
|
Solid-Solid |
Solid sols: Minerals, Gemstones, Glass |
|
Solid- Liquid |
Sols: Muddy water, starch in water, cell fluids |
|
Solid- Gas |
Aerosol of solids: dust storms, smoke |
|
Liquid-Liquid |
Emulsion: Medicine, Milk, Shampoo |
|
Liquid-Solid |
Gels: Butter, Jellies |
|
Liquid-Gas |
Liquid Aerosols: Fog, mist |
|
Gas-Solid |
Solid foam: Stone, foam rubber |
|
Gas-Liquid |
Foam, Froth: Soda water, Whipped cream |
Figure 1: Milk – Example of Liquid-Liquid Colloid
What are Suspensions
Suspension particles are much larger than colloid particles. Due to their size, they do not pass through filter papers and can be recovered by filtration. These particles are visible to the naked eye. Light do not travel through these large particles. Hence, the systems are often opaque.
Suspensions are heterogeneous. The suspension particles undergo sedimentation when the system is left to stand. This is due to the gravitational force on the particles and the absence of Brownian motion.
If you put a little bit of CaCO3 into water and stir the system, first you will see a milky colour solution which seems to be homogeneous. But it does not remain the same. The particles tend to undergo sedimentation as soon as stirring is stopped. After some time, you can see a layer of CaCO3 at the bottom of the container.
Examples of Suspensions
Solid in liquid: Muddy water, CaCO3 in water
Liquid in liquid: Oil in water (liquid-liquid systems are called emulsions)
Solid in Liquid: Soot particles in air
How to Distinguish Colloids from Suspensions
Several methods can be adopted to distinguish colloids from suspensions.
When filtered through filter paper colloids will pass through the paper whereas suspended particles will be retained on.
When the system is left to stand some time, suspended particles will readily undergo sedimentation whereas colloidal particles remain in the solution.
Brownian motion is also another factor that can be used to distinguish the difference between colloid and suspension. It is the random movement and collision between the molecules. Colloidal particles undergo Brownian motion since they are small enough for random movement and collisions. Therefore, they don’t settle easily and separate out. Large suspended particles don’t undergo Brownian motion and they easily settle.
Figure 2: Oil in Water – Example of a Suspension
Difference Between Colloid and Suspension
Size of Particles
Colloid: Colloid particles are comparatively small (1-200 nm).
Suspension: Suspension particles are comparatively large (> 200 nm).
Permeability through Filter Paper
Colloid: Particles pass through filter paper.
Suspension: Particles don’t pass through filter paper.
Particle Visibility
Colloid: Particles cannot be seen by the naked eye but can be seen under a light microscope.
Suspension: Particles can be clearly seen by naked eye.
Sedimentation
Colloid: Particles do not undergo sedimentation.
Suspension: Particles undergo sedimentation.
Phase Separation
Colloid: Phase separation is either very slow or might not happen.
Suspension: A distinct phase separation can be seen.
Applications
Colloid: Colloids are used in the paint industry, food industry, perfume industry and various other industrial application.
Suspension: Suspensions are used in the production of medication and milk of magnesia.
Examples
Colloid: Milk, shampoo, gemstones, and foam rubber are examples of colloids.
Suspension: Muddy water, soot in air, oil and water are examples of suspensions
Summary – Colloid vs Suspension
Suspended particles are the largest category of particles in mixtures. Colloids are of medium size, and solution molecules are the smallest. The various differences mentioned in the table above are all caused by the difference in the size of particles, which is also the main difference between colloid and suspension.
Reference:
“Solutions, Suspensions, Colloids — Summary Table.” EdInformatics.Com. N.p., n.d. Web. 06 Feb. 2017.
Verma, N. K., B. K. Vermani, and Neema Verma. “Surface Chemistry.” Comprehensive Practical Chemistry Class-XII. N.p.: Laxmi Publications, 2008. N. pag. Print.
Image Courtesy:
“Water and oil” By Victor Blacus – (GFDL) via Commons Wikimedia
“925858” (Public Domain) via Pixabay
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