Find moles of `NH_(4)Cl` required to prevent `Mg(OH)_(2)` from precipitating in a litre of solution which contains 0.02 mole `NH_(3)` and 0.001 mole `Mg^(2+)` ions.
Given : `K_(b)(NH_(3))=10^(-5),` `K_(sp)[Mg(OH)_(2)]=10^(-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) .

A buffer solution contains 0.25M NH_(4)OH and 0.3 NH_(4)C1 . a. Calculate the pH of the solution. K_(b) =2xx10^(-5) .

What is [NH_(4)^(+)] in a solution that contain 0.02 M NH_(3)(K_(b)=1.8xx10^(-5)) and 0.01 M KOH?

The maximum pH of a solution which is having 0.10M in Mg^(2+) and from which Mg(OH)_(2) is not precipated is: (Given K_(sp)Mg(OH)_(2)=4xx10^(-11)M^(3)){log2=0.30}

The pK_(a) value of NH_(3) is 5. Calculate the pH of the buffer solution, 1 L of which contains 0.01 M NH_(4)Cl and 0.10M NH_(4)OH :

If the concentration of [NH_(4)^(+)] in a solution having 0.02 M NH_(3) and 0.005 M Ca ( OH)_(2) is a xx 10^(-6) M,determine a. [k_(b) ( NH_(3)) = 1.8 xx 10^(-5) ]

If 500 mL of 0.4 M AgNO_(3) is mixed with 500 mL of 2 M NH_(3) solution then what is the concentration of Ag(NH_(3))^(+) in solution? Given : K_(f1)[Ag(NH_(3))]^(+)=10^(3),K_(f2)[Ag(NH_(3))_(2)^(+)]=10^(4)

Calculate pH of the buffer solution containing 0.15 mole of NH_(4)OH " and " 0.25 mole of NH_(4)Cl. K_(b) " for " NH_(4)OH " is " 1.98 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) )

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) ?