Answer:
The ratio of the temperature of helium to that of hydrogen gas is 2:1.
Explanation:
Atomic mass of hydrogen = M
Temperature of hydrogen gas =T
Pressure of the hydrogen gas = P
Mass of the hydrogen gas = m
Moles of the hydrogen gas = [tex]n=\frac{m}{2M}[/tex]
Volume of the hydrogen gas = V
Using an ideal gas equation:
[tex]PV=nRT=PV=\frac{mRT}{M}[/tex]...(1)
Temperature of helium gas =T'
Pressure of the helium gas = P'= P
Mass of the helium gas = m' =m
Moles of the helium gas = [tex]n'=\frac{m}{M'}=\frac{m}{4M}[/tex]
Volume of the helium gas = V' = V
Using an ideal gas equation:
[tex]P'V'=n'RT'=\frac{mRT'}{4M}[/tex]...(2)
Divide (2) by (1)
[tex]\frac{P'V'}{PV}=\frac{\frac{mRT'}{4M}}{\frac{mRT}{2M}}[/tex]
[tex]\frac{T'}{T}=\frac{2}{1}[/tex]
The ratio of the temperature of helium to that of hydrogen gas is 2:1.
