Courses
Courses for Kids
Free study material
Offline Centres
More
Store Icon
Store

What are five properties of gases?

seo-qna
SearchIcon
Answer
VerifiedVerified
391.8k+ views
Hint: We have to know that the gas is one of the four principal conditions of issue. An unadulterated gas might be composed of individual particles, basic atoms produced using one kind of iota, or compound atoms produced using an assortment of molecules. A gas blend, like air, contains an assortment of unadulterated gases.

Complete step by step answer:
Five properties of gases have to be given.
First, we have to see the low density, gases contain dissipated atoms that are scattered across a given volume and are in this manner less thick than in their strong or fluid states. Their low thickness gives gases smoothness, which permits gas particles to move quickly and haphazardly past each other, growing or contracting with no fixed situation.
Second, we have to see the indefinite shape or volume,
Gases have no clear shape or volume. The irregular development of gas atoms permits them to grow or agree to accept the volume of the compartment holding them. Hence, a gas' volume alludes to the space of the compartment wherein its particles have reached to move. This property brings about gases consuming more space than they would in their fluid or strong state.
Third, we have to see the compressibility and expandability,
The low thickness of gases makes them compressible since their particles can be situated far separated from each other. This permits them to move openly to find a way into the holes of room between them. Similarly, as gases are compressible, they are additionally expandable.
Fourth, we have to see the diffusivity,
Given a lot of room between gas particles, at least two gases can blend rapidly and effectively with each other to frame a homogeneous combination. This interaction is called dispersion.
Fifth, we have to see the pressure,
Gas particles are in consistent movement. They apply pressing factor, or power per unit territory, on the inside surface of their compartment. The pressing factor shifts as per the measure of gas bound to a given compartment's volume, the temperature and the pressing factor.

Note: We must know that the gases were a riddle to early researchers who were confounded by their opportunity of development and evident weightlessness contrasted with fluids and solids. Truth be told they did not discover that gases comprised a condition of issue until the seventeenth century.