Two gases occupy two containers A and B ...

Two gases occupy two containers `A` and `B` then gas in `A`, of volume `0.10 m^(3)`, exerts a pressure of `1.40 Mpa` and that in `B`, of volume `0.15 m^(3)`, exerts a pressure `0.7 MP a`. The two containers are joined by a tube of negligible volume and the gases are allowed to intermingle. Then if the temperature remains constant, the final pressure in the container will be (in MPa)

Similar Questions

Explore conceptually related problems

Two gases occupy two containers (A) and (B). The gas in (A) of volume 0.11 m^3 experts a pressure of 1.38 Mpa . The gas in (B) of volume 0.16 m^3 experts a pressure of 0.69 Mpa. Two containers are united by a tube of negligible volume and the gases are allowed to intermingle. What is the final pressure in the container if the temperature remains constant ?

At constant temperature certain mass of gas in vessel of volume 0.01m^3 exerts a pressure of 'P' atm. If it is transferred to a vessel of volume 10L , then its pressure in atm is?

A container contains m_1g of a gas at a pressure p_1 In another container m_2g of the gas is kept at a pressure p_2. IF the two containers are connected by a tube, then what will be the pressure of the gas mixture.

A gas occupies 0.6 dm^(3) under a pressure of 0.92 bar. Find under what pressure, the volume of gas will be reduced by 20 precent of its original volume, temperature remaining constant.

A gas occupies 0.6 dm^(3) under a pressure of 0.92 bar. Find under what pressure, the volume of gas will be reduced by 20 percent of its original volume, temperature remaining constant.

0.5 moles of gas A and x moles of gas B exert a pressure of 200 Pa in a container of volume 10 m^(3) at 1000K. Given R is the gas constant in jk^(-1) ,x is :

Similar Questions

Recommended Questions