# Question #831b6

Jul 14, 2017

$V = \frac{n R T}{P} \approx 14 \cdot L$
I don't know what you mean by $\text{kinetic gas}$. If we assume ideality, then $P V = n R T$, and we have all the variables SAVE VOLUME.
And thus $V = \frac{n R T}{P} = \frac{3.65 \cdot m o l \times 0.0821 \cdot \frac{L \cdot a t m}{K \cdot m o l} \times 308.4 \cdot K}{6.83 \cdot a t m}$
And this quotient gives an answer in $\text{litres}$ as required for a volume.