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.
Maybe
LiCl
It contain gas Ammonia. It is a basic gas
All gases exist in molecular form except noble gases.
Since ammonia molecules exhibit hydrogen bonding, these attractions allow ammonia gas to liquefy much more easily than other gases of comparable molecular mass.
Maybe
The apparent molecular weight of a mixture of ideal gases depends on the concentrations of such gases in the Atmosphere. Below 100km altitude the gases in the atmosphere are very well mixed so that the concentration of all the gases does not vary (approximately) with altitude. Therefore the apparent molecular weight would not vary very much at an elevation and at sea level.
LiCl
Ideal gases will not liquify at low temperatures because they have no intermolecular forces.
They are liquefied gases.
evaporation and condensation or just condensation
The rate of diffusion of a gas is inversely related to the molecular weight of that gas. The lighter the gas, the faster it diffuses. Hydrogen is the lightest of all gases having a molecular weight of only 2. Thus it diffuses faster than all others.
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.
It contain gas Ammonia. It is a basic gas
All gases exist in molecular form except noble gases.