1. Tardigrade
  2. Question
  3. Physics
  4. The given figure shows two flasks connected to each other. The volume of flask 1 is twice that of flask 2 . The system is filled with an ideal gas at temperature 100 K and 200 K, respectively, in the flasks. If the mass of the gas in flask 1 be m, then the mass of the gas in flask 2 in equilibrium is ((m/x)). Find x.

Question Error Report

Thank you for reporting, we will resolve it shortly

Back to Question

Q. The given figure shows two flasks connected to each other. The volume of flask $1$ is twice that of flask $2$ . The system is filled with an ideal gas at temperature $100 \,K$ and $200 \,K$, respectively, in the flasks. If the mass of the gas in flask $1$ be $m$, then the mass of the gas in flask $2$ in equilibrium is $\left(\frac{m}{x}\right)$. Find $x$.Physics Question Image

Kinetic Theory

Solution:

$\frac{n_{1} R T}{2 V}=\frac{n_{2} R(2 T)}{V}$
$ \Rightarrow n_{2}=\frac{n_{1}}{4}$