through diffusion processes.
By diffusion
Reducing the volume of a gas INCREASES its pressure. There is less room for the molecules to move around in, causing more collisions to occur, thus increasing the pressure.
During condensation, the movement of gas molecules become slower. This is because the gas molecules transfer their energy to something cooler.
physical changeIn gas phase the molecules take more room, move fasterover (1000 times) longer distances before collating to other molecules as compaired to liquid.
In a gas, molecules are relatively far apart and have the energy to move quickly.
the atoms and molecules are free to move independently, colliding frequently.
the liquid vaporizes and the resulting gas molecules wander about the room
Through the diffusion process.
Iron can be a solid, liquid, or gas because it is an element and elements can become all the forms of matter
All "smells" are molecules of gas (or vapors). They diffuse, and the warmer it is - the faster they spread.
Both are fluids.Gas is compressible whereas liquid is incompressible. The molecules in liquids are loosely attached while in gas the aren't attached at all. The kinetic energy of gas molecules is more than that of liquids.
Because the attraction between gas molecules is negligible so its easy for gas molecules to move free
Gas expands the quickest because gas molecules are farther apart than molecules of other substances. Gas molecules also move faster.
When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules. When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules.
Yes.
Molecules in the gas state move much faster than their liquid or solid states. Depending on the temperature and pressure, molecules can exist in three states: gas, liquid, or solid. At high temperatures and low pressures, the gas state is favored. When the molecule is in the gas state, it actually hits other molecules and bounces in random directions. A molecule moving as a gas is like a weightless baseball hit inside a big empty room in outer space. The baseball bounces everywhere, and it moves very fast. In a gas, every time the molecule hits another molecule, it also bounces like the baseball. In comparison, molecules in their liquid state can move, but they move much slower, because but they do not separate from each other. The movement of a liquid molecule is like you moving in a room packed with people. You can move, but you are always in contact with someone. Even slower are molecules in their solid state. In fact, they do not move much at all. This time imagine that you are in a packed room, but now you are all sitting in connected chairs. You can wiggle your head, arms and legs, but you cannot leave the chair. Since you cannot leave the chair, and because the chairs are stuck together, you can not move your entire body to another place in the room. Using this analogy, molecules in the solid state are the slowest.
Gas.
In a solid the molecules are tightly packed together all touching one another and vibrate; in a liquid the molecules are more loosely packed and more free to move around but they are still touching; in a gas the molecules are free to move where they please