The mixture of three gases X, Y and Z is enclosed in a closed vessel at constant temperature. Molecular weight of X is the highest and that oly is the lcast, When equilibrium is established the

Three different gases X, Y and Z of molecular masses 2, 16 and 64 were enclosed in a vessel at constant temperature till equilbrium is reaches. Which of the following statement is correct?

Certain amount of an ideal gas is contained in a closed vessel. The vessel is moving with a constant velcity v . The molecular mass of gas is M . The rise in temperature of the gas when the vessel is suddenly stopped is (gamma C_(P) // C_(V))

Certain amount of an ideal gas is contained in a closed vessel. The vessel is moving with a constant velcity v . The molecular mass of gas is M . The rise in temperature of the gas when the vessel is suddenly stopped is (gamma C_(P) // C_(V))

The pressure of an equilibrium mixture of three gases 2NO(g) + Cl_(2) (g ) hArr 2NOCl(g) is suddenly decreased by doubling the volume of the container at constant temperature. When the system returns to equilibrium

Match the following if the molecular weights of X,Y and Z are the same.

Starting with one moles of O_(2) and two moles of SO_(2) , the equilibrium for the formation of SO_(3) was established at a certain temperature. If V is the volume of the vessel and 2 x is the number of moles of SO_(3) present, the equilibrium cosntant will be

The dissociation of phosgene is represented as follows: COCl_2 (g) hArr CO(g) +Cl_2( g) When a mixture of these three gasses at equilibrium is compressed at constant temperature , what happens to the equilibrium constant for the reactions?

When 1 mole of N_2 and 1 mole of H_2 is enclosed in 3L vessel and the reaction is allowed to attain equilibrium , it is found that at equilibrium there is 'x' mole of H_2 . The number of moles of NH_3 formed would be

Pressure of 1 g ideal gas X at 300 K is 2 atm. When 2 g of another gas Y is introduced in the same vessel at same temperature, the pressure become 3 atm. The correct relationship between molar mass of X and Y is :

The closed cylinder shown in figure has a freely moving piston separating chambers 1 and 2. Chamber 1 contains 25 mg of N_2 and chamber 2 contains 40 mg of helium gas. When equilibrium is established what will be the ratio L_1// L_2 ? What is the ratio of the number of moles of N_2 to the number of moles of He ?(Molecular weights of N_2 and He are 28 and 4. .