You must use the perfect gas law, which states that PV=nRT
P= pressure
V= volume
n= number of moles
R= universal gas constant
T= temperature
rearranging the equation to solve for n we get n= PV/RT
so n= 1.8(28.5)/8.314(298)
n= 51.3/2477.572
n= 0.02
1.09
The pressure is 20,68 at.
For oxygen to be a liqud it has to be extremly cold and to be a liquid it has to be even colder. Room temp is quite hot. If you want more information have a look at wikipedia.
That depends on the dimensions of the room, what is in it, what the temperature is, and what the pressure is. If the room is empty except for air (nitrogen, oxygen, small amounts of other gases) then it has a different number of atoms/molecules than if it contains different gases, liquids, or solids. Temperature and pressure also matter a great deal.
Gases show least ideal behaviour at 1- high pressure and 2- low temperature.
320.0 mm Hg
The pressure is 20,68 at.
Cylinder A
it regulate the oxygen pressure
Increases.
Lightening contains high pressure and temperature at small interval. This causes oxygen to convert into ozone.
One liter of oxygen (O2) gas at standard temperature and pressure (STP) \ill contain 1/22.4 of a mole of molecules. STP is defined as 0 degrees Celsius at 1 atm of pressure.
For oxygen to be a liqud it has to be extremly cold and to be a liquid it has to be even colder. Room temp is quite hot. If you want more information have a look at wikipedia.
If equal volumes of nitrogen and oxygen are at the same temperature and pressure, then both (the nitrogen and oxygen) will contain the same number of particles
The pressure is 103,5 at.
In a sample of air, an increase in temperature will result in an increase in the partial pressure of oxygen.
why is the temperature and the pressure important when giving the density of oxygen and nitrogen
It can exploded.