It has about the same bi-polar structure as water and able to hydrogen bonds with other NH3 molecules.
Since ammonia molecules exhibit hydrogen bonding, these attractions allow ammonia gas to liquefy much more easily than other gases of comparable molecular mass.
The critical pressure of a substance is the pressure required to liquefy a gas at its critical temperature. Some examples are shown below.
It means to turn something into liquid.
It is a industrial purpose. It is easy to store when liquefied.
Ideal gases will not liquify at low temperatures because they have no intermolecular forces.
They are liquefied gases.
evaporation and condensation or just condensation
Gases in the sky are not blue, the blue of the sky is caused by light scattering. However, oxygen is blue if you liquefy it.
Yes, you can convert the noble gases into liquids. It is possible to liquefy any gas by cooling it enough.
No. It takes a combination of pressure and temperature to liquefy some gases. Hydrogen and helium were the last gases to be liquefied and that was with pressure and extremely low temperature.
The easiest way to separate three gases is to liquefy them all by cooling, and then gradually warm them up and separate them by fractional distillation (since each liquefied gas will have a different boiling point).
Cool a volume of air sufficiently and the gases will liquefy one at a time. Also, when the air volume liquefies it takes a huge dump.
All forms of gas will liquefy at a sufficiently low temperature.
All forms of gas will liquefy at a sufficiently low temperature.
If you mean the individual gases you will need to apply pressure and or reduce the temperature to liquefy the gases. If you mean by forming a compound react them together. The end product is water which is liquid at room temperature and pressure.
If you mean the individual gases you will need to apply pressure and or reduce the temperature to liquefy the gases. If you mean by forming a compound react them together. The end product is water which is liquid at room temperature and pressure.