compressing it
Yes, but decreasing the volume will increase the pressure
increasing the pressure on the gas, lowering the temperature of the gas and removing some of the gas
Not a single particle (molecule); the gas is easily compressed.
One way is by compressing it.
Compressing it
By Compressing it
Compress it
compressing
Comprresing
molar volume
The volume you would expect the gas to occupy if the pressure is increased to 40 kPa would be 50 liters.
The volume is 102 mL.
The volume is 13,64 L.
305 k
Gases are classified as matter depending on their ability to occupy volume. A gas can be colorless, odorless, and occupy volume, making its classification of matter.
Chlorine gas occupies a volume of 25 mL at 300K What volume it occupy at 600k
The gas expand to occupy the volume of the container.
The volume is approx. 15,35 litres.
molar volume
The volume you would expect the gas to occupy if the pressure is increased to 40 kPa would be 50 liters.
The volume is 22,1 L.
The volume is 0,046 L.
The volume is 102 mL.
Approx. 774 litres.
0.00922 g of H2 gas will occupy approximately 0.100 L at STP
The gas takes on the size and shape of the container it's in. So if you make the volume of the container smaller (compress it) the volume of the gas is smaller as well. However, this comes at a higher pressure exerted, so there is no spontaneous mass creation.Well, by definition, compress means "to make smaller; to press or squeeze together; or to make something occupy a smaller space or volume." Therefore, the very word "compress" implies a decrease in volume. So if you wanted to know what happens when you compress a gas, you are squeezing it into a smaller space, or decreasing the volume.If you were to let the gas maintain a constant temperature as you compress it, then pressure would increase. If you were to let the gas maintain a constant pressure, then temperature would decrease.If you were to rephrase your question to "what happens to the volume of gas if put under pressure," then the gas' volume would decrease. For the temperature to remain constant and the pressure to increase, a gas must decrease in volume to occupy a smaller area.