difference between ideal gas and real gas ..
Answers
Answered by
21
Real gases differ from ideal gases such that,
Real gases have small attractive and repulsive forces between particles and ideal gases do not.
Real gas particles have a volume and ideal gas particles do not.
Real gas particles collide in-elastically (loses energy with collisions) and ideal gas particles collide elastically.
The most “ideal” real gas would be helium owing to its size and inert nature. The next one is probably hydrogen.
Generally speaking, a real gas approaches ideal behavior in high temperatures and low pressures. At high temperatures, kinetic energy of gas particles are much higher and the potential energy due to inter-molecular interactions becomes less and less significant. At low pressures, the volume of the gas is so high that individual volume of a gas particle becomes less significant compared to the total volume. The reverse is also true. Real gases deviate from ideal behavior at high pressures and low temperatures.
We can look at the ideal gas law, PV = nRT.
Since PV = nRT, for an ideal gas PV/nRT must be equal to 1. We call this the compression factor. Let us look at the compression factor of some real gases.

plz mark as brainiest..
Real gases have small attractive and repulsive forces between particles and ideal gases do not.
Real gas particles have a volume and ideal gas particles do not.
Real gas particles collide in-elastically (loses energy with collisions) and ideal gas particles collide elastically.
The most “ideal” real gas would be helium owing to its size and inert nature. The next one is probably hydrogen.
Generally speaking, a real gas approaches ideal behavior in high temperatures and low pressures. At high temperatures, kinetic energy of gas particles are much higher and the potential energy due to inter-molecular interactions becomes less and less significant. At low pressures, the volume of the gas is so high that individual volume of a gas particle becomes less significant compared to the total volume. The reverse is also true. Real gases deviate from ideal behavior at high pressures and low temperatures.
We can look at the ideal gas law, PV = nRT.
Since PV = nRT, for an ideal gas PV/nRT must be equal to 1. We call this the compression factor. Let us look at the compression factor of some real gases.

plz mark as brainiest..
aman8424:
orr ...dog kahne ki jarrut nhi h...aap ittna bhi mt bolo
Answered by
5
hope it helps please neglect the writing as we neglect mass of the ideal gas :P
Attachments:
Similar questions
English,
7 months ago
English,
7 months ago
Math,
7 months ago
Social Sciences,
1 year ago
Biology,
1 year ago
Social Sciences,
1 year ago
Science,
1 year ago
Physics,
1 year ago