Arrange the following sparingly soluble ionic compounds in the increasing order of molar solubilities.
(1) `MX:K_(sp)=8.1xx10^(-17)`
(2) `AX_(2),K_(sp)=4xx10^(-9)`
(3) `PX_(3),K_(sp)=2.7xx10^(-19)`.

Arrange sp, sp^(2), sp^(3) hybrid orbitals in order of their increasing size.

A student wants to prepare a saturated solution of Ag^+ ion He has got only three samples of Ag-AgCl (K_(sp)=1.8xx10^(-18)) , AgBr (K_(sp)=5xx10^(-13)) and Ag_2CrO_4(K_(sp)=2.4xx10^(-12)) . Which compound should he take to obtain maximum [Ag^(+)]

Determine the simultaneous solutbiltiy of AgCN (K_(sp)=2.2xx10^-16) and AgCl(K_(sp)=1.6xx10^-10) in 1.0 M ammonia solution. K_f[Ag(NH_3)_2^+]=1.5xx10^7

Identify the reaction order from the following rate constants. k=3 xx 10^-4s^-1

Freshly precipitated aluminium and magnesium hydroxides are stirred vigorously in a buffer solution containing 0.25 mol L^(-1) of NH_4Cl and 0.05(M) of ammonium hydroxide. Calculate the concentration of aluminium and magnesium ions in solution. K_b(NH_4OH)=1.8xx10^(-5),K_(sp)[Al(OH)_3]=6xx10^(-32) K_(sp)[Mg(OH)_2)]=8.9xx10^(-12)

The volume of the water needed to dissolve 1g of BaSO_4 (K_(sp)=1.1xx10^-10 ) at 25^@C is

Compare the values of formation constant, K_(f) of the following coordination entities with their stabilities. [Ni(NH_(3))_(6)]^(2+), k_(f)=5.31xx10^(8)," "[Ni(en)_(3)]^(2+), k_(f)=1.12 xx10^(18)