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Consider the adjacent diagram. Initially...

Consider the adjacent diagram. Initially, flask `A` contained oxygen gas at `27^(@)C` and `950 mm` of `Hg`, and flask `B` contained neon gas at `27^(@)C` and `900 mm`. Finally, two flask were joined by means of a narrow tube of negligible volume equipped with a stopcock and gases were allowed to mixup freely. The final pressure in the combined system was found to be `910 mm` of `Hg`.

Which of the following statements concerning oxygen and neon gas is true in the begining, when the stopcock was just opened?

A

`O_(2)` moved at faster rate toward flask `B`.

B

`Ne` moved at faster rate towards flask `A`.

C

Both `O_(2)` and `Ne` gases moves at equal rate.

D

Insufficient information to compare the rate of effusion.

Text Solution

Verified by Experts

At `t=0`, `(r_(O_(2)))/(r_(Ne))=(rho_(O_(2)))/(rho_(Ne))sqrt((M_(Ne))/(M_(O_(2))))=(950)/(900)sqrt((20)/(32))lt1`
Therefore, `Ne` will diffuse at faster rate.
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Consider the adjacent diagram. Initially, flask A contained oxygen gas at 27^(@)C and 950 mm of Hg , and flask B contained neon gas at 27^(@)C and 900 mm . Finally, two flask were joined by means of a narrow tube of negligible volume equipped with a stopcock and gases were allowed to mixup freely. The final pressure in the combined system was found to be 910 mm of Hg . What is the correct relationship between volumes of the two flasks?

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