Low temperatures and/or high pressures.
In order to liquify oxygen gas, the critical temperature is 154.58K (i.e., -118.57 °C) and the critical pressure is 5.043MPa.
An ideal gas conforming to the ideal gas law (PV = nRT) would behave at all conditions of temperature and pressure. However, in reality, no gas perfectly conforms to the gas laws under all conditions.
Liquid nitrogen (N2) can be obtained by cooling gaseous nitrogen to its boiling point of -196 degrees Celsius (-321 degrees Fahrenheit). This can be achieved by using a cryogenic refrigeration system that compresses and cools the gas to achieve the liquefaction. The liquid nitrogen is then stored at low temperatures and used in various applications.
Under normal conditions (in a container or under ground) natural gas is a gas.
Pressure helps in liquefaction of a gas by reducing the volume occupied by the gas molecules, which in turn forces them closer together. When the gas molecules are compressed under high pressure, they lose their kinetic energy and slow down, allowing intermolecular forces to overcome the kinetic energy and pull the molecules closer together, leading to liquefaction.
It must. You have to take heat out of the gas in order to liquify it.
At 1atm pressure, nitrogen should be cooled below -196C in order to liquify. When it comes to industrial purposes, a higher pressure is usually used as the meting point rises.
An ideal gas is, precisely, an idealization - a ficticious substance that will NOT liquify, but remain a gas, and have a volume that is exactly proportional to the temperature (at a given pressure). Real gases are an approximation to an ideal gas, under a wide variety of conditions, but at low temperatures, or high pressures, there are discrepancies.
No, Liquify requires Photoshop to work. Much of the code for Liquify is actually in the Photoshop application not the plugin.
Because there is no pressure being placed on the gas, the molecules do not become condensed enough to form a liquid.
Yes you can. Go to Filter > Distort > Liquify. For more details visit related links.
An ideal gas is one in which each atom has no influence on its neighbors. So it would not liquify or solidify, because that would require some attractive force that one would exert on the other. So the real gas that most resembles an ideal gas is the one that is hardest to liquify, and that would be helium, which doesn't liquify at atmospheric pressure until you get it down to 4.2 degrees C from absolute zero (in other words, to 4.2 degrees Kelvin). No other gas has such a low boiling point.
Modify
within seconds it will liquify your smoothly because of its fast speeds and direction of the blades
If you are asking how much pressure you would have to compress methane to in order to liquify it at room temperature, the answer is that methane won't liquify at room temperature. The critical temperature for methane is -87.2 degrees centigrade. Above that temperature it will not liquify no matter how much pressure you apply. At -82.7 degrees centigrade it would take a pressure of 45.96 bar to get it to liquify. See: http://www.chem.purdue.edu/gchelp/liquids/critical.html
it is part of the liquify filter. The Liquify filter lets you push, pull, rotate, reflect, pucker, and bloat any area of an image.
In order to liquify oxygen gas, the critical temperature is 154.58K (i.e., -118.57 °C) and the critical pressure is 5.043MPa.