0.3 g `[ML_(6)]Cl_(3)` of molar mass 267.46 g/mol is reacted with 0.125 M `AgNO_3` (aq) solution, calculate volume of `AgNO_3` required in ml.

40 ml of 0.1 M CaCl_2 solution is mixed with 50 ml of 0.2 M AgNO_3 solution. Mole of AgCl formed in the reaction is

10 mL of a solution of NaCl gave on evaporation 0.93 g of the mixed salt which gave 1.865 of AgCl by reacting with AgNO_(3) solution. Calculate the quantity of NaCl in 10 mL of the solution.

14.625mg of NaCl is treated with AgNO_(3)(aq) .The mass of AgCl obtained as ppt is ( Ag=108g//mol )

4.5g mass of a substance (molar mass = 90g/mol) is dissolved in 250ml solution, the molarity of solution is

100 ml of 0.2 NHCl solution is added to 100 ml of 0.2 N AgNO_(3) solution. The molarity of nitrate ions in the resulting mixture will be

A solution containing 2.675 g of CoCl_(3).6NH_(3) (molar mass = 267.5 g mol^(-1) is passed through a cation exchanger. The chloride ions obtained in solution are treated with excess of AgNO_(3) to give 4.78 g of AgCl (molar mass = 143.5 g mol^(-1) ). The formula of the complex is (At.mass of Ag = 108 u ) .

A solution containing 2.675 g of CoCl_(3).6NH_(3) (molar mass = 267.5 g mol^(-1) ) is passed through a cation exchanger. The chloride ions obtained is solution were treated with excess of AgNO_(3) to give 4.73 g of AgCl (molar mass = 143.5 g mol^(-1) ). The formula of the complex is (At. mass of Ag = 108 u)