No they dont because the kinetic theory of gases made us know that the intermolecular forces between them are weak and they are independent. They dont tend to attract because of the level of disorderliness at increase in temperature and pressure.
In a real gas, particles can exert attractive or repulsive forces on each other. In an ideal gas, particles are assumed to not attract or repel each other.
No ! All Gas Particles Move In Random Directions !
yes there are forces of attraction among the molecules of a gas but they are not strong enough to keep the molecules together in fact they are almost negligible
Yes, there is an attractive force between gas molecules, but the molecules are moving too fast for these forces to have a significant effect.
Yes.
Forces of attraction have a stronger effect on the behavior of liquid particles.
The kinetic theory of gases doesn't involve the exercise of forces between particles.
Yes, it is true.
Postulate #1: The force of attraction among molecules are negligible. Postulate #2: The molecules make elastic collisions. (kinetic energy concerved) Postulate #3: Despite contineous motion of molecules, the density remains constant.
The forces are referred to as intermolecular forces, a substances tendency for its molecules to attract to eachother. The stronger these forces are, the more likely a substance will find itself to be solid at room temperature. The reason for this is that the attraction to its own molecules is great enough that the individual particles kinetic energies are not enough to break the intermolecular force. If the IMF is weak, the substance is more likely to be a liquid or even a gas because the attraction to its own molecules is not enough to overcome the particles kinetic energies. In addition the larger a substances chemical structure is, the more surface area available for a molecule to interact and thus the IMFs are stronger, Examples of substances with strong IMFs: Water, NaCl, ethanol, amines Examples of substances with weak IMFs: aliphatic hydrocarbons ( propane ), acetone, ether
Yes, it is true.
The weak force is the force of attraction between atoms.
Yes that's right
Forces of attraction have a stronger effect on the behavior of liquid particles.
They are too weak to have an effect at great distrances between gas particles.
Forces of attraction have a stronger effect on the behavior of liquid particles.
An ideal gas is not a real thing, just an idea. The definition of an ideal gas is one where there are no forces between the particles. If there are no forces, there is nothing to bring the particles together into a liquid. In a real gas of course there are forces of attraction which keep the particles together when they are moving sufficiently slowly.
Because the intermolecular space between the gas particles are far more as compared to that in liquid, and that is because of less forces of attraction between particles in the gas, which can be attributed to more energy present in gas particles.
There are. They include gluons, photons, and bosons, along with small amounts of gravity from gravitons.
Ideal gases are gases with negligible intermolecular forces and molecular volumes. Real gases have intermolecular forces and have definite volumes at room temperature and pressure (RTP).
The answer is gas.
liquid.