Intermolecular forces between the molecules of a gas are not strong enough to hold the gas molecules together therefore they break down taking more space.
The answer is 0,19 moles.
this is because the amount of solute in the solution will have the same number of moles as that of the solid.
This volume is 79,79 litres.
The volume is approx. 15,35 litres.
Ideal gas equation. PV = nRT ===============
At standard temperature and pressure, 1 mole of any gas will occupy 22.4 liters. Set up a direct proportion of 22.4 liters/1 mole = 1 liter/x moles and solve for x. You get 0.045 moles.
Properties which a certain amount of gas will maintain include its mass, and the number of moles.
Approx. 774 litres.
The answer is 0,19 moles.
this is because the amount of solute in the solution will have the same number of moles as that of the solid.
This volume is 79,79 litres.
One still has to know the pressure and the amount(moles) of that gas, not which gas is concerned.
1 mole occupies 22.414 liters So, 1.84 moles will occupy 41.242 liters
The volume is approx. 15,35 litres.
The answer is 0,058 moles.
1 mole occupies 22.414 liters So, 3.30 moles will occupy 73.966 liters.
Amount = moles