A solution containing a mixture of `0.05M NaCI` and `0.05M` Nal is taken. `(K_(sp) of AgCI = 10^(-10)`and `K_(sp)`of `AgI = 4 xx 10^(-16))`. When `AgNO_(3)` is added to such a solution:

A solution containing a mixture of 0.05M NaCl and 0.05M NaI is taken (K_(sp) of AgCl=10^(-10) and K_(sp) of AgI=4xx410^(-18)) . When AgNO_(3) is added to such a solution:

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) . Calculate the [Ag^(o+)] in the equilibrium solution.

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) . Calculate the [Ag^(o+)] in the equilibrium solution.

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) . Calculate the [CI^(Theta)] in the equilibrium solution.

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) . Calculate the [Br^(Theta)] in the equilibrium solution.

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) . Calculate the [CI^(Theta)] in the equilibrium solution.

The solubility of AgCl in 0.1M NaCI is (K_(sp) " of AgCl" = 1.2 xx 10^(-10))

The solubility of AgCl in 0.1M NaCI is (K_(sp) " of AgCl" = 1.2 xx 10^(-10))

The following solutions are mixed: 500mL of 0.01 M AgNO_(3) and 500mL solution that was both 0.01M in NaCI and 0.01M in NaBr . Given K_(sp) AGCI = 10^(-10), K_(sp) AgBr = 5 xx 10^(-13) , [Ag^(+)] = 2 xx 10^(-8) . Calculate the [Br^(Theta)] in the equilibrium solution.