Home
Class 11
CHEMISTRY
To a given container having a pore of de...

To a given container having a pore of definite size, gas A `(mol. wt. 81)` is filled till the final pressure become `10 atm`. It was seen that in `50 "minutes" 10 g` of A was effused out. Now the container was compelety evacuated and filled with gas `B(mol. wt. 100)` till the final pressure becomes `20 atm`. In `75` minuter how many gram of `B` will be effused out?

Promotional Banner

Similar Questions

Explore conceptually related problems

A 10.0 litre container is filled with a gas to a pressure of 2.00 atm at 0^(@)C . At what temperature will the pressure inside the container be 2.50 atm ?

A 10.0 L container is filled with a gas to a pressure of 2.00 atm at 0^(@)C . At what temperature will the pressure inside the container be 2.50 atm ?

A 1 L flask containing vapours of methyl alcohol (molar mass 32) at a pressure of 1atm and 25^@C was evacuated till the fill was 10^(-3) mm. How many molecules of methyl alcohol are left in the flask ?

A gaseous mixture of three gases A, B and C has a pressure of 10 atm. The total number of moles of all the gases is 10. If the partial pressure of A and B are 3.0 and 1.0 atm respectively and if C has a mol/wt. of 2.0. what is the weight of C in g present in the mixture ?

16 mL of He gas effuses through a pin hole in 4 sec from a container having P_(He) equal to 1 atm. If same container is filled with CH_(4) having pressure 2 atm, how much volume (in mL) of CH_(4) will be leaked through same pin hole in 2 sec?

16 mL of He gas effuses through a pin hole in 4 sec from a container having P_(He) equal to 1 atm. If same container is filled with CH_(4) having pressure 2 atm, how much volume (in mL) of CH_(4) will be leaked through same pin hole in 2 sec?

The cylinder contains 100 gm of an ideal gas (mol. wt. = 40 gm/mol) at 27(@)C and 2 atm. pressure. In transportation the cylinder fell and a dent was created. The valve present cannot keep the pressure greater than 2 atm. Hence 10 gm of a gas got leaked out. The volume of the container before and after dent is-

The cylinder contains 100 gm of an ideal gas (mol. wt. = 40 gm/mol) at 27(@)C and 2 atm. pressure. In transportation the cylinder fell and a dent was created. The valve present cannot keep the pressure greater than 2 atm. Hence 10 gm of a gas got leaked out. The volume of the container before and after dent is-

There is a drum of volume VL in which air is filled at 1 atm pressure. Now a sealed glass tube of 25L containing an inert gas at 20 atm is placed inside it and it is sealed. During the transportation the glass tube is cracked final pressure inside the drum rises to 1.4 atm. What is the volume of the drum?