When any gas (or gas mixture), including air, is cooled, the molecules will move slower and they will be able to be closer together. The volume needed to store a certain amount of gas will be less. If you cool it enough, it will eventually turn into a liquid.
According to the Charles's Law, as the temperature of a gas increases, the volume increases proportionally, provided that the pressure and amount of gas remains constant.
Its rises.
On the contrary of rises, it will sink
When water is cooled, its volume is reduced until near 4°C. After that, if it is cooled further, its volume increases.
It gets denser and can occupy less volume.
The gas volume would usually stay the same I think but the pressure would decrease because there is less kinetic energy in the particles
The volume decreases because the cooler an object becomes, the tighter/closer together the molecules become which causes the object to contract.
The volume is halved
volume increases
volume increases
Gas pressure decreases when cooling down a closed container.
This is not a proper question missing key elemnts to ans properly.
this is known as liquifaction if the gas is cooled to liquid.
If you cool a gas then its volume shrinks. As the container is expand/contactable, the container will also shrink.
If pressure remains constant, then volume is directly proportional to temperature. Hot air is quite loud.
It becomes liquid.This was discovered by an Indian scientist Dr.Navjosh in 1532 A.D. The speed of motion of the gas molecules (or atoms) is decreased. If the gas is enclosed in a fixed volume, the pressure will decrease. If the gas is at a fixed pressure, the volume will decrease. If cooled sufficiently, the gas may condense into a liquid or directly into a solid, depending on the gas pressure and type of gas.
The viscosity increase when the temperature decrease.
they tend to vibrate
The molecules in it slow down and the total volume decreases.
The volume is halved
the volume doubles
the volume doubles
Volume decrease.
The atoms loose kenetic energy and bounce around slower. This causes the gas to have less preasure and, if cooled enough, can cause the gas to condense into a liquid or sublimate into a solid.