Answer:
b. 3.4 × 10^2 m/s
Explanation:
The rms speed of a gas is given by
[tex]v_{\text{rms}}=\sqrt[]{\frac{3RT}{M_m}}[/tex]
where R = gas constant = 8.31 J/mol⋅K, T = temperature, and Mm = molar mass in kg/mol
Now in our case, we have
T = 320 K and Mm = 71g/mol = 0.071 kg / mol; therefore, the above equation gives
[tex]v_{\text{rms}}=\sqrt[]{\frac{3(8.31)(320)}{0.071}}[/tex][tex]\boxed{v_{\text{rms}}=3.4\cdot10^4m/s}[/tex]which is our answer!
Hence, choice B is the correct answer.
