2.2 Pressure, temperature, and rms speed  (Page 5/18)

Calculating temperature: escape velocity of helium atoms

Strategy

Solution

1. Identify the knowns: v is the escape velocity, 11.1 km/s.
2. Identify the unknowns: We need to solve for temperature, T . We also need to solve for the mass m of the helium atom.
3. Determine which equations are needed.
   • To get the mass m of the helium atom, we can use information from the periodic table:
     
     $m=\frac{M}{N_A}.$
   • To solve for temperature T , we can rearrange
     
     $\frac{1}{2}m\stackrel{\text{–}}{v^2}=\frac{3}{2}{k}_{\text{B}}T$
     
     to yield
     
     $T=\frac{m\stackrel{\text{–}}{v^2}}{3k_{\text{B}}}.$
4. Substitute the known values into the equations and solve for the unknowns,
   
   $m=\frac{M}{N_A}=\frac{4.0026\times {10}^{\mathrm{-3}}\text{kg/mol}}{6.02\times {10}^{23}\text{mol}}=6.65\times {10}^{\mathrm{-27}}\text{kg}$
   
   and
   
   $T=\frac{{(6.65\times {10}^{\mathrm{-27}}\text{kg})(11.1\times {10}^3\text{m/s})}^2}{3(1.38\times {10}^{\mathrm{-23}}\text{J/K})}=1.98\times {10}^4\text{K}\text{.}$

Significance