The attraction between gas particles is called Van Der Waal's force. It was originally thought to be a form of coordinate covalent bonding - just the usual attraction that negatively charged electrons have for positively charged nuclei - but more recent analysis suggests that it really has to do with pressure exerted by virtual particles, since there are fewer virtual particles between two gas particles if they are relatively close together, than there are surrounding the gas particles. By virtual particles, we mean particles whose existence we can't be sure about due to the Heisenberg Uncertainly Principle. It's a very arcane branch of physics. Despite their uncertain existences, virtual particles can still exert actual pressure.
Yes, the speed increases when a liquid changes to a gas, And the attraction between particles also decreases. :) -Anouymous
Yes, it is true.
The weak force is the force of attraction between atoms.
They are too weak to have an effect at great distrances between gas particles.
There are weak forces of attraction between particles in a gas, but these forces are generally much weaker than the kinetic energy of the particles themselves. This is why gases have high mobility and tend to fill the space they are confined to.
Yes, the speed increases when a liquid changes to a gas, And the attraction between particles also decreases. :) -Anouymous
Yes, it is true.
The weak force is the force of attraction between atoms.
Yes that's right
They are too weak to have an effect at great distrances between gas particles.
In general, the attraction between particles in liquids is weaker than in solids. In liquids, particles have more freedom to move around, which is why liquids can flow and take the shape of their container. In solids, particles are held more tightly together, which is why solids have a definite shape and volume.
Solids have a strong force of attraction between its particles, which is why they have a fixed shape and volume. Liquids have a weaker force of attraction compared to solids, allowing them to flow and take the shape of their container. Gases have very weak forces of attraction between particles, which is why they can expand to fill the space of their container.
yes
There are weak forces of attraction between particles in a gas, but these forces are generally much weaker than the kinetic energy of the particles themselves. This is why gases have high mobility and tend to fill the space they are confined to.
If you removed energy from neon gas, there would be a decrease in motion and more attraction between the particles.
Yes, it is true.
Forces of attraction have a stronger effect on the behavior of liquid particles.