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State of matter having maximum intermolecular space?
Gases have the maximum intermolecular space among the three states of matter (solid, liquid, gas). This is because gas particles are far apart and have weak forces of attraction between them, allowing them to move freely and occupy a larger volume.
Why does the water vapor take up more space than liquid?
The intermolecular bonds in a gas are very weak and the gas can easily expand.
What are two characteristics of an ideal gas that are not true of a real gas?
they have no volume and their molecular force of attraction is negligible
Why does a certain amount of moles of water occupy much more space as a gas than as a liquid?
Intermolecular forces between the molecules of a gas are not strong enough to hold the gas molecules together therefore they break down taking more space.
If you shrink a container containing gas what happens to the volume of the gas?
If you shrink the container containing gas, the volume of the gas decreases because the gas particles are forced into a smaller space. This increase in pressure due to the reduced volume is described by Boyle's Law.
what happens to a gas as pressure is reduced?
As pressure is reduced, the volume of the gas will increase. This is described by Boyle's Law, which states that pressure and volume are inversely proportional. Therefore, as pressure decreases, the gas molecules have more space to move around, causing the gas to expand.
Why is it easy to move through a gas?
because the particles in a gas have very less intermolecular force between them and great intermolecular space. so its very easy to move through it
State of matter having maximum intermolecular space?
Gases have the maximum intermolecular space among the three states of matter (solid, liquid, gas). This is because gas particles are far apart and have weak forces of attraction between them, allowing them to move freely and occupy a larger volume.
Why does the water vapor take up more space than liquid?
The intermolecular bonds in a gas are very weak and the gas can easily expand.
What are two characteristics of an ideal gas that are not true of a real gas?
they have no volume and their molecular force of attraction is negligible
What happens to gas when pressure is applied to it?
the pressure and the temperature increases, and the volume is reduced.
What happens to the intermolecular spaces when some energy is removed from a gas or liquid it decreases it increases it is not affected or increases and decreases alternatively?
By removing energy, what you mean is reducing temperature. A gas or liquid will contract as it gets colder, and intermolecular spaces will decrease.
Why does a certain amount of moles of water occupy much more space as a gas than as a liquid?
Intermolecular forces between the molecules of a gas are not strong enough to hold the gas molecules together therefore they break down taking more space.
What happens when the pressure of a gas is decreased?
When the pressure of a gas is decreased, the gas molecules move farther apart, leading to an increase in volume. This can cause the gas to expand and fill a larger space. Additionally, decreasing pressure can also lower the temperature of the gas due to the reduced number of molecular collisions.
If you shrink a container containing gas what happens to the volume of the gas?
If you shrink the container containing gas, the volume of the gas decreases because the gas particles are forced into a smaller space. This increase in pressure due to the reduced volume is described by Boyle's Law.
What is the characteristics of a gas?
A gas has no definite shape or volume, as it takes the shape and volume of its container. Gas particles are in constant, random motion and have weak intermolecular forces. Gases are highly compressible and tend to expand to fill the space available to them.
What happens to particles in a gas?
Particles are spread out to the maximum of the space available.
