`A(s)hArrH_(2)S(g)+B(g)` At eq., pressure = 18 atm
`C(s)hArrH_(2)S(g)+D(g)` At eq., pressure = 36 atm
Calculation
mole ratio of B and D

A(s)hArrH_(2)S(g)+B(g) At eq., pressure = 18 atm C(s)hArrH_(2)S(g)+D(g) At eq., pressure = 36 atm Calculation total pressure at new equilibrium when both the solids are heated simultaneously

The equilibrium pressure of NH_(4)CN(s) hArr NH_(3)(g)+HCN(g) is 2.98 atm. Calculate K_(p)

In the reaction : C(s)+CO2(g)⇌2CO(g) , the equilibrium pressure is 6 atm. If 50% of CO2 reacts, then Kp of the reaction is

For 2Hl(g)hArrH_(2)(g)+l_(2)(g), write the expression of K_(c)

For 2Hl(g)hArrH_(2)(g)+l_(2)(g), write the expression of K_(c)

A_((s)) + B_((g)) + "heat" hArr 2C_((s)) + 2D_((g)) . At equilibrium the pressure of 'B is doubled. By what factor the concentration of 'D' should change, to reattain the equilibrium

1 mol of A in 1 litre vessel maintained at constant T shows the equilibrium A(g) hArr B(g) +2C(g) " " K_(C_(1)) C(g) hArr 2D(g)+3B(g) " " K_(C_(2)) If the equilibrium pressure is 13/6 times of initial pressure and [C]_(eq)=4/9[A]_(eq) , Calculate K_(C_(1)) and K_(C_(2)) .

1 mol of A in 1 litre vessel maintained at constant T shows the equilibrium A(g) hArr B(g) +2C(g) " " K_(C_(1)) C(g) hArr 2D(g)+3B(g) " " K_(C_(2)) If the equilibrium pressure is 13/6 times of initial pressure and [C]_(eq)=4/9[A]_(eq) , Calculate K_(C_(1)) and K_(C_(2)) .