For the chemical reaction,
`3x(g)+Y(g)hArrX_(3)Y(g)`
the amount of `X_(3)Y` at equilibrium is affected by

For the chemical reaction 3X(g) + Y(g) rarr X_(3)Y(g) ,the amount of X_(3)Y at equilibrium is affected by:

At equilibrium of the reaction 2X(g)+Y(g) hArr X_(2)Y(g) the number of moles of X_(2)Y at equilibrium is affected by the

2 mole of X and 1 mole of Y are allowed to react in a 2 litre container.when equilibrium is reached, the following reaction occurs 2X(g)+Y(g) hArr Z(g) at 300 K. If the moles of Z at equilibrium is 0.5 then what is equilibrium constant K_C ?

Consider the imaginary equilibrium 4A(g)+5B(g)hArr 4X(g)+6Y(g) , The unit of equilibrium constant K_(C) is

A gaseous compound of molecular mass 82.1 dissociates on heating to 400 K as X_(2)Y_(4)(g)hArrX_(2)(g)+Y_(2)(g) he density of the equilibrium mixture at a pressure of 1 atm and temperature of 400K is 2.0gL^(-1) . The percentage dissociation of the compound is

For the gas-phase equilibrium, X_(2) (g)+ 3 Y_(2) (g) harr 2XY_(3) (g)" ,value of equilibrium constant, K_(p) is 1times10^(-4) at 25^(@)C ,and enthalpy change is -94KJ .Calculate the change in entropy of the reaction (Delta S^(@)) at 25^(@)C .