A solution containing 0.319 g of complex `CrCl_(3).6H_(2)O` was passed through cation exchanger and the solution given out was neutralised by 28.5 ml of 0.125 M NaOH. The correct formula of the complex will be: [ molecular weight of complex =266.5]

1 g of complex [Cr(H_(2)O)_(5)Cl]Cl_(2).H_(2)O was passed through a cation exchanger to produce HCl. The acid liberated was diluted to 1 litre. What will be the molarity of acid solution [Molecular weight of complex=266.5]?

A solution containing 2.665 g of Cr Cl_(3).6H_(2)O is passed through a cation exchanger. The chloride ions obtained in solution react with AgNO_(3) and give 2.87 g of AgCI. Determine the structure of the compound.

A solution containing 1 go of the complex [Cr(H_(2)O)_(5)CI]CI_(2)H_(2)O was passed through a cation exchanger The acid liberated was made up to 1 litre Calculate the strength of acid solution ( Aw of Cr=52 and Mw of complex = 266.5 g mo1^(-1) .

When any solution passess through a cation exchange resin that is in acidic form, H ion of the resin is replaced by cations of the solution. A solution containing 0.319 g of an isomer with molecular formula CrCl_(3).6H_(2)O is passed through a cation exchange resin in acidic form. The eluted solution requires 19 cm^(3) fo 0.125 N NaOH. The isomer is

From the experimental facts given below determine the correct structure of solid CrCI_(3) .6H_(2)O Solution containing 0.2665g of CrCI_(3)6H_(2) O was passed throuhg cation exchange resin in acid form The acid liberated was found to react completely with 30mL of 0.10M Na OH ("Molecular mass of" CrCI_(3).6H_(2)O=266.5) .

A six coordination complex of formula CrCl_(3)*6H_(2)O has green colour. A 0.1 M solution of the complex when treated with excess of AgNO_(3) gave 28.7g of white precipitate. The formula of the complex would be:

A six coordination complex of formula CrCl_(3)*6H_(2)O has green colour. A 0.1 M solution of the complex when treated with excess of AgNO_(3) gas 28.7g of white precipitate. The formula of the complex would 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 ) .

2 L of 1 molal solution of a complex salt CrCl_(3).6H_(2)O (Mw=266.5) shows an osmotic pressure of 98.52 atm . The solution is now treated with 1 L of 6 M AgNO_(3) , which of the following are correct?

0.5 gm of fuming H_(2)SO_(4) (Oleum) is diluted with water. This solution is completely neutralised by 26.7 ml of 0.4 M NaOH solution. Calculate the percentage of free SO_(3) in the given sample. Give your answer excluding the decimal places.