n mole of He and 2n mole of `O_2` is mixed in a container. Then `(C_p/C_v)_(mix)` will be

The equilibrium constant K_(c) for the reaction P_(4(g)) hArr 2P_(2(g)) is 1.4 at 400^(@) C. Suppose that 3 moles of P_(4(g)) and 2 moles of P_(2(g)) are mixed in 2 litre container at 400^(@) C. What is the value of reaction quotient (Q_(c)) ?

The equilibrium constant K_(c) for the reaction P_(4)(g) hArr 2P_(2)(g) is 1.4 at 400^(@)C . Suppose that 3 moles of P_(4)(g) and 2 moles of P_(2)(g) are mixed in 2 litre container at 400^(@)C . What is the value of reaction quotient (Q) ?

The equilibrium constant K_(c) for the reaction P_(4)(g)hArr 2P_(2)(g) is 1.4 at 400^(@)C. Suppose that 3 moles of P_(4)(g) and 2 moles of P_(2)(g) are mixed in 2 litre container at 400^(@)C. What is the value of reaction quotient (Q_(c)) ?

If "7 gm N"_(2) is mixed with 20 gm Ar, there C_(p)//C_(v) of mixture will be :

If one mole of ammonia and one mole of hydrogen chloride are mixed in a closed container to form ammonium chloride vapor, then

Two containers A and B have the same volume. Container A contains 5 moles of O_(2) gas. Container B contains 3 moles of He and 2 moles of N_(2) . Both the containers are separately kept in vacuum at the same temperature. Both the containers have very small orifices of the same area through which the gases leak out. Compare the rate of effusion of O_(2) with that of He gas mixture.

At STP a contains has 1 mole of H_(2) 2 mole Ne, 3 mole O_(2) and 4 mole N_(2) . Without changing total pressure if 2 mole of O_(2) is removed, the partial pressure of O_(2) will be decreased by

If 1 mole of H_(2) , 2 moles of O_(2) and 3 moles of N_(2) are mixed in a vessel and total pressure was found to be 12 atm then the partial pressure exerted by N_(2) in the vessel will be

When 3.00 mole of A and 1.00 mole of B are mixed in a 1,00 litre vessel , the following reaction takes place A(g) +B(g) hArr 2C(g) the equilibrium mixture contains 0.5 mole of C. What is the value of equilibrium constant for the reaction ?

1 mole of sample of O_2 and 3 mole sample of H_2 are mixed isothermally in a 125.3 litre container at 125^@C the total pressure of gaseous mixture will be