Using the Gibbs energy change `G^(@)=+63.3kJ` for the given reaction: `Ag_2CO_3(s)hArr2Ag^(+)(aq)+CO_3^(2-)`(aq), the `K_(sp)` of `Ag_2CO_3`(s) in water at `25^(@)C` is `(R=8.314J*K^(-1).mol^(-1))`

Using the Gibb's energy change , DeltaG^@ =+63.3 kJ , for the following reaction, Ag_2CO_3 (s) hArr 2Ag^(+)(aq) +CO_3^(2-)(aq) the K_(sp) of Ag_2CO_3(s) in water at 25^@C is ("R=8.314 K"^(-1) "mol"^(-1))

Using the Gibbs energy change, Delta G^(@)=+ 63.3 kJ , for the following reaction, Ag_(2)CO_(3)hArr2Ag^(+)(aq)+CO_(3)^(2-) the K_(sp) of Ag_(2)CO_(3)(s) in water at 25^(@)C is (R=8.314 JK^(-1)mol^(-1))

Using the Gibbs energy change, Delta G^(@)=+ 63.3 kJ , for the following reaction, Ag_(2)CO_(3)hArr2Ag^(+)(aq)+CO_(3)^(2-) The K_(sp) of Ag_(2)CO_(3)(s) in water at 25^(@)C is (R=8.314 JK^(-1)mol^(-1))

Using the Gibbs energy change, Delta G^(@)=+ 63.3 kJ , for the following reaction, Ag_(2)CO_(3)hArr2Ag^(+)(aq)+CO_(3)^(2-) the K_(sp) of Ag_(2)CO_(3)(s) in water at 25^(@)C is (R=8.314 JK^(-1)mol^(-1))

Using the Gibbs energy change Delta G^(@) = +63. 3 kJ for the following reaction Ag_2CO_3( s) hArr 2Ag^(+) (aq) +CO_3^(2-) (aq) "the " K_(sp) " of " Ag_2CO_3(s) in water at 25^(@) C is (R = 8.314 JK^(-1) " mol ^(-1))