Answer:
1) Molar Mass = 71.3g/mol
2) Partial Pressure of N2 = 0.78031 atm
Step-by-step explanation:
First Question;
Mass (m) = 0.510g
Volume (V) = 0.175L
Temeperature (T) = 25 C + 273 = 298K (Converting to Kelvin Temperature)
Pressure (p) = 1 atm
The formular relationship between mass and Molar mass is given as;
Number of moles (n) = mass (m) / molar mass (M)
Using Ideal gas equation, we would be able to calculate the number of moles;
PV = nRT; where R = gas constant = 0.0821 L atm K−1 mol−1
n = PV / RT
n = (1 * 0.175) / (0.0821 * 298)
n = 0.175 / 24.4658
n = 0.007153 moles
Substituting the value of n in Number of moles (n) = mass (m) / molar mass (M)
Molar mass = mass / Number of moles
Molar mass = 0.510 / 0.007153 = 71.3g/mol
Second Question;
Key terms;
mole fraction: number of moles of one particular gas divided by the total moles of gas in the mixture
Total moles of gas = 0.0319 mol N2 + 0.00856 mol O2 + 0.000381 mol Ar
Total moles of gas = 0.040841 moles
Mole fraction of N2 = moles of N2 / Total moles = 0.0319 / 0.040841 = 0.7811
Volume = 1L
Temperature = 25C + 273 = 298k (converting to Kelvin Temperature)
Number of moles = 0.040841
Total pressure = ?
Using Ideal gas equation;
PV = nRT; where R = gas constant = 0.0821 L atm K−1 mol−1
P = nRT / V
P = (0.040841 * 0.0821 * 298) / 1
Total Pressure = 0.999 atm
The partial pressure of one individual gas within the overall mixtures, pi, can be expressed as follows:
Pi=Ptotal * xi
where xi is the mole fraction.
Partial Pressure of N2 = 0.999 * 0.7811
Partial Pressure of N2 = 0.78031 atm