25 mL of an aqueous solution of KCl was ...

`25 mL` of an aqueous solution of `KCl` was found to requires `20 mL` of `1M AgNO_(3)` solution when titrated using a `K_(2)CrO_(4)` as indicator. Depression in freezing point of `KCl` solution with `100%` ionisation will be :
`(K_(f) = 2.0 mol^(-1) kg "and molarity = molality")`

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25 mL of an aqueous solution of KCl was found to require 20 mL of 1 M AgNO_(3) solution when titrated using K_(2)CrO_(4) as indicator . Depression in freezing point of KCl solution with 100% ionization will be : ( K_(f) = (10)/(9) k /molal)

Calculate depression of freezing point for 0.56 molal aq. Solution of KCl. (Given : K_f(H_(2)O) = 1.8 kg mol^(-1) ).

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The freezing point of 1 molar NaCl solution assuming NaCl to be 100% dissociated in water is: ( K_f = 1.86 K molality^-1 )

In a 0.5 molal solution KCl, KCl is 50% dissociated. The freezing point of solution will be ( K_(f) = 1.86 K kg mol^(-1) ):

`25 mL` of an aqueous solution of `KCl` was found to requires `20 mL` of `1M AgNO_(3)` solution when titrated using a `K_(2)CrO_(4)` as indicator. Depression in freezing point of `KCl` solution with `100%` ionisation will be : `(K_(f) = 2.0 mol^(-1) kg "and molarity = molality")`

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`25 mL` of an aqueous solution of `KCl` was found to requires `20 mL` of `1M AgNO_(3)` solution when titrated using a `K_(2)CrO_(4)` as indicator. Depression in freezing point of `KCl` solution with `100%` ionisation will be :
`(K_(f) = 2.0 mol^(-1) kg "and molarity = molality")`