Generally speaking - if you lower the temperature of a gas, it becomes more dense. If the temperature is lowered sufficiently it will start to condense into a liquid.
yes decreasing the pressure of a gas can decrease its temperature
The pressure increase.
Atmospheric gases can be liquefied by (i) increasing atmospheric pressure ; and (ii) decreasing temperature. By increasing pressure particles of the gas get compressed. Decreasing temperature reduces kinetic energy.
As the temperature of a gas increases, so does the volume.
It is increasing in temperature. When you put a pot of water over a lit stove, it evaporates into its gas form, water vapor, which can also be called steam.
If the temperature remains constant, decreasing the volume will increase the pressure.
Assuming temperature and moles of gas remains the same, then decreasing the volume of the gas will increase the pressure. Decreasing the volume enough will result in non ideal behavior.
yes decreasing the pressure of a gas can decrease its temperature
The molecules will not collide as often with the walls decreasing the volume
By decreasing the temperature of gas.
As indicated by Charles's Law, at constant pressure, the volume decreases when the temperature decreases. This is due to slowed collisions between molecules.
The pressure increase.
It increases
decreasing the volume available for the gas or increasing its temperature
If the temperature of the gas is decreasing, then in order to maintain constant pressure, you would have to compress it in volume.
Increasing the pressure and decreasing the temperature the solubility increase.
Atmospheric gases can be liquefied by (i) increasing atmospheric pressure ; and (ii) decreasing temperature. By increasing pressure particles of the gas get compressed. Decreasing temperature reduces kinetic energy.