Calculate pH at which `Mg(OH)_(2)` begins to precipitate from a solution containing `0.10M Mg^(2+)` ions. `(K_(SP)of Mg(OH)_(2)=1xx10^(-11))`

What is the pH value at which Mg(OH)_(2) begins to precipitate from a solution containing 0.2 M Mg^(+2) ions ? K_(SP) of Mg(OH)_(2) is 2 xx 10^(-13) M^(2) ?

A solution has 0.05M Mg^(2+) and 0.05M NH_(3) . Calculate the concentration of NH_(4)CI required to prevent the formation of Mg(Oh)_(2) in solution. K_(SP) for Mg(OH)_(2)=9.0xx10^(-12) and ionisation constant of NH_(3) is 1.8xx10^(-5) .

What is the concentration of Pb^(2+) when PbSO_(4) (K_(sp)=1.8xx10^(-8)) begins to precipitate from a solution that is 0.0045 M in SO_(4)^(2-) ?

Calculate the [OH^(-)] of a solution after 100 mL of 0.1 M MgCl_(2) is added to 100 mL 0.2 M NaOH K_(sp) of Mg(OH)_(2) is 1.2 xx10^(-11) .

Which of the following concentration of NH_(4)^(+) will be sufficient to present the precipitation of Mg(OH)_(2) form a solution which is 0.01 M MgCl_(2) and 0.1 M NH_(3)(aq) . Given that K_(sp)Mg(OH)_(2)=2.5xx10^(-11) and K_(b) for NH_(3) = 2xx10^(-5) .

What is the ratio of moles of Mg(OH)_(2) and Al(OH)_(3) , present in 1L saturated solution of Mg(OH)_(2) and Al(OH)_(3) K_(sp) of Mg(OH)_(2)=4xx10^(-12) and K_(sp) of Al(OH)_(3)=1xx10^(-33) .[Report answer by multiplying 10^(-18)]

To a solution of 0.01M Mg^(2+) and 0.8M NH_(4)CI , and equal volume of NH_(3) is added which just gives precipitates. Calculate [NH_(3)] in solution. K_(sp) of Mg(OH)_(2) = 1.4 xx 10^(-11) and K_(b) of NH_(4)OH = 1.8 xx 10^(-5) .

Calculate the molar solubility of Fe(OH)_(3) in a buffer solution that is 0.1M in NH_(4)OH and 0.1M in NH_(4)Cl (K_(b) of NH_(4)OH=1.8xx10^(-5) , K_(sp) of Fe(OH)_(3)=2.6xx10^(-39) )

pH of a saturated solution of M (OH)_(2) is 13 . Hence K_(sp) of M(OH)_(2) is :

Calculate pH of saturated solution Mg(OH)_(2),K_(sp) for Mg(OH)_(2) is 8.9 xx 10^(-12) .