Equal volumes of 1.0M `AgNO_(3)` and 1.0M `KCl` are mixed . The depression of freezing point of the resulting solution will be `(K_(f)(H_(2)O)=1.86 K kg "mol"^(-1), 1M=1m)`

100 ml each of 1M AgNO_3 and 1M NaCl are mixed. The nitrate ion concentration in the resulting solution is

0.1M KI and 0.2 M AgNO_(3) are mixed in 3:1 volume ratio . The deperession in freezing point of the resulting solution will be 0.1 x (Assume Kf of H_(2)O=2Kg//"mol" ).

Equal volumes of M NaOH and 0.3 M KOH are mixed in an experiment. Find the POH and pH of the resulting solution.

Mole fraction of solute in some solution is 1//n . If 50% of solute molecules dissociate into two parts and remaining 50% get dimerised , new mole fraction of solvent becomes 4//5 . Find value of n.29. 0.1 M KI and 0.2 M are mixed in 3:1 volume ratio . The depression in freezing point of the resulting solution will be 0.1 x (Assume K_(f) of and molality =molarity). Then x=_________

100 ml of 1M HCl, 200 ml 2 M HCl and 300 ml 3M HCl are mixed. The Molarity of the resulting solution is

Equal volume of 0.1M HCl and 0.2M H_(2)SO_(4) are mixed. What is the molarity of proton in the mixture?

Equal volumes of 0.1 M KCl and 0.1 M FeCl_(3) are mixed with no change in volume, which is/are correct?

Equal volumes of 0.1 M potassium hydroxide and 0.1 M sulphuric acid are mixed . The P^(H) of resulting solution is

A solution of sucrose (molar mass 342 "gmol"^(-1) ) has been produced by dissolving 68.5g sucrose in 1000g water. The freezing point of the solution obtained will be ( K_f for H_2O = 1.86 kg "mol"^(-1) )