`K_(p)` for `CaCO_(3)(s) hArrCaO(s)+CO_(2)(g)` is `0.5` at `1000K ` 2 moles of `CaO(s) & CO_(2)(g)` each at `0.45 atm` introduce in a `16.4` lit. vessel and heated upto `1000 K`. The amount of `CaCO_(2)(s)` formed will be.

For CaCO_(3)(s) hArr CaO(s)+CO_(2)(g), K_(c) is equal to …………..

For the reaction : CaCO_(3) (s) hArr CaO (s) + CO_(2) (g)

Equilibrium constant K_(p) for the reaction CaCO_(3)(s) hArr CaO(s) + CO_2(g) is 0.82 atm at 727^@C . If 1 mole of CaCO_(3) is placed in a closed container of 20 L and heated to this temperature, what amount of CaCO_(3) would dissociate at equilibrium?

For the reaction CaCO_(3(s)) hArr CaO_((s))+CO_(2(g))k_p is equal to

The reaction CaCO_(3)(s) hArr CaO(s)+CO_(2)(g) reaches the state of equilibrium when

For the reaction CaCO_(3)(s) hArr CaO(s) + CO_(2)(g) K_(p)=1.16 atm at 800^(@)C . If 20.0g of CaCO_(3) was put into a 10.0 L flask and heated to 800^(@)C, what percentage of CaCO_(3) would remain unreacted at equilibrium ?

For the reaction : CaCO_(3)(s) hArr CaO(s)+CO_(2)(g),K_(p)=1.16atm at 800^(@)C . If 20g of CaCO_(3) were kept in a 10 litre vessel at 800^(@)C , the amount of CaCO_(3) remained at equilibrium is :

For the reaction CaCO_3(s)hArr CaO(s)+CO_2(g) , the pressure of CO_2 (g) depends on :