if you have a container or anything you want to put the like a liquid in it can turn to a solid and the solid can turn to a gas by leaving the container out after it freezes and it will be somkey if you put a little bit of oil in it and it will be a gas and the liquid will turn to water if you use like a pop or juice
Gas will always fill any container that it is in, since it will expand to fill any available space. Liquid does not expand, it has a fixed volume, therefore depending upon how much liquid you pour into your container, the container may or may not be filled.
The particles are spread out, free to move. A gas will fill the space it is introduced into.
That's what gases do. All types of gas fill the space that is available to them. It is the result of random thermal motion.
Gas spreads out to fill any type of container
A gas. Gas will expand to fill the available space.
gas ca fill any space cause gas is very powerful and strong
No, a gas can fill the space of any container
Yes, but the greater the space, the more dilute the gas will be.
it will move randomly and quickly to fill the empty space in the container..that's how the matter in a gas do to fill the container.. P/s: gas is matter that has mass and occupied space.
Gas
Bose-Einstein condensate, liquid, gas, plasma. All will flow to fill all available space.
Yes. A gas will expand to fill a space evenly.
Gas will always fill any container that it is in, since it will expand to fill any available space. Liquid does not expand, it has a fixed volume, therefore depending upon how much liquid you pour into your container, the container may or may not be filled.
The particles are spread out, free to move. A gas will fill the space it is introduced into.
The particles are spread out, free to move. A gas will fill the space it is introduced into.
A gas is one of the phases of matter. It is mainly composed of molecules that are constantly moving around in random directions, with the tendency to fill any available space.
To do this we have to know the temperature of the gas and the gravitational field it exists in.