If you do not want to cool it then it requires 500,000 psi (pounds per square inch). This is not easy to do because oxygen is hazardous to work with.
doodle and bum ha ha ha
Gaseous oxygen will turn into liquid at atmospheric pressure by cooling to a temperature below -297°F
turn down the temperature increase pressure
The Liquid will turn into gas. The boiling point corresponds to the temperature at which the vapor pressure of the liquid equals the atmospheric pressure. If the liquid is open to the atmosphere (that is, not in a sealed vessel), it is not possible to sustain a pressure greater than the atmospheric pressure, because the vapor will simply expand until its pressure equals that of the atmosphere.
its boiling
Boiling point
Oxygen stored as liquid is highly flammable.
No, it does not.
A gas at standard pressure
Hydrogen becomes a liquid at 20.28K and high pressure.
A gas at standard pressure
Both Nitrogen and Oxygen may be liquefied at normal atmospheric pressure simply by cooling them enough. Carbon dioxide has to be pressurize as well as chilled to turn it into a liquid. In this form, it is commonly used as an industrial solvent. For example to produce decaffeinated coffee.
Depend on what gas it is and at what pressure. Water turn to liquid at 100 C and 1 ATM and condense at 80 C if pressure is 0.5 ATM. Oxygen in air will condense to liquid at -183 C and Nitrogen at -196 C and 1 ATM.
Yes, it is possible.
Oxygen is a gas (in both forms: O2 and O3) at normal pressure and temperature.
Gaseous oxygen will turn into liquid at atmospheric pressure by cooling to a temperature below -297°F
Oxygen, on earth, is a gas because it is in a gaseous state. On mars, it is liquid. The physical state of any element like hydrogen, nitrogen, oxygen, sodium, sulfur, etc depends on the ambient temperature and pressure. The earth's atmosphere doesn't pressurize oxygen enough for it to turn into a liquid, nor is cold enough for oxygen to condense into a liquid. Hence oxygen is a gas.
turn down the temperature increase pressure