Everything is made up of tiny particles. The state of a material depends on how strong the forces of attraction are between the particles of the material.
When looking at objects around us, we can see that different objects are in different states of matter. Particle Theory explains the unique properties of the different states of matter.
There are three states of matter: Solids, Liquids and Gases. Let’s look at how particles are arranged in each state of matter, as well as their properties.
The image below shows the arrangement of particles in a solid.
Due to the strong forces of attraction between the particles in a solid, they are very close together, arranged in a regular lattice structure.
Solids keep a fixed shape, so the particles are unable to move around. When heated, the particles begin to vibrate in their fixed positions.
The image below shows the arrangement of particles in a liquid.
Liquid particles are arranged in random positions. This is because the forces between them are weak. However, some of the particles are still close together.
Liquids take the shape of their container, as they are able to flow. The liquid particles are always randomly moving.
Similar to solids, when heated, the particles vibrate more.
The image below shows the arrangement of particles in a gas.
Gas particles have very weak forces between them, so they are able to move around freely. The particles are very far apart from each other.
Gases can always take the shape of containers because they have no definite shape.
When heated, gas particles move faster.
Below is a table that compares the three states of matter.
|Arrangement of particles||Regular arrangement||Random arrangement||Random arrangement|
|Movement of particles||Vibrate slowly around a fixed position||Vibrate quickly and particles are free to move around each other||Move quickly in random directions|
|Closeness of particles||Very close together||Close together with no regular arrangement||Very spaced out|