What volume would 8.0g helium gas occupy at 0.0 c and 1.0 atm? how many moles of gas molecules would you expect to find in a 2.0-l bottle of air at 0.0 c and 1.0 atm? what would be the mass of gas inside a 3.0-l balloon at 0 c and 1.0 atm filled with a. he(g)? b. co2(g)? c. ch4(g)? how many moles of oxygen gas would be present in a 1.0-ml gas sample at 0.0 c and 1.0 atm?

By using the ideal gas formula:

1) TO get the volume: from the ideal gas formula:
when PV = nRT
when we have P = 1 & R = 0.0821 & T= 0°C+273 = 273 K
and n = mass / molar mass of He 
          = 8 g / 4 g/mol = 2 mol
so by substitution:
1 atm * V = 2 mol * 0.0821 * 273
∴V = 44.8 L

2) To get moles of gas molecules we will use also the ideal gas formula:
PV = nRT
when P = 1 atm & V=2 L & R = 0.0821 & T = 0+273 = 273 K
so by substitution:
1atm * 2 L = n * 0.0821 * 273
∴n (the no.of moles)= 0.089 mol
to get the no.of moles of gas molecules we will multiply by avogadro's number:
= 0.089 * (6.02*10^23) = 5.37X10^22 molecules

3) first we have to get n:
PV = n RT
when P= 1 atm & V = 3L & R= 0.0821 & T = 0+273 = 273 K
so by substitution:
1atm * 3L = n * 0.0821 * 273 
∴n the no.of moles of the gas= 0.134 mol 

a) when the gas is He so the mass can be calculated from this formula:

 He Mass = no.of moles * molar mass of He 
               = 0.134m * 4g/mol
               = 0.5 g 

b) when the gas is CO2 So the mass can be calculated from this formula also:

CO2 Mass = no.of moles * molar mass of CO2
                   =0.134mol * 44 g/mol
                   = 5.896 g

c) when the gas is CH4 So the mass can be calculated from this formula :

CH4 Mass = no.of moles * molar mass of CH4
                   = 0.134mol * 16 g /mol 
                   = 2.144 g

4) by using also the ideal gas formula we can get the moles of O2:

PV = nRT
when P= 1 atm  & V = 0.001 L & R = 0.0821 & T = 0+273 = 273 K
so by substitution:
1atm * 0.001 L = n * 0.0821 *273 

∴ n = 4.5X10^-5 mol

Do u have the n? or maybe the m?