A storage battery contains a solution of `H_(2)SO_(4) 38%` by weight . Van't Hoff factor if the `DeltaT_(f)` is 29.08 (`K_(f)="mol"^(-1)kg)` can be written as x-0.5. Find x ?

A storage battery contais a solution of sulphuric acid 38% by weight and at this concentration the Van't Hoff factor is 2.5 . If K_f of water is 1.86 K Kg mol^(-1) , at what temperature the contents of battery freeze?

1.0 molal aqueous solution of an electrolyte X_(3)Y_(2) is 25% ionized. The Boiling point of the solution is (K_(b) of H_(2)O=0.52K kg mol^(-1))

The measured osmotic pressure of a soultion prepared by dissolving 17.4 mg of K_(2)SO_(4) in 2L of water at 27^(@)C" is "3.735xx10^(-3) bar. The van't Hoff factor is ( R =0.083 L" bar "K^(-1) mol^(-1) , atomic weights k=39, S=32, O=16)

The elevation in boling point of an aqueous solutions of NaCl is 0.01 .^(@) C . If its van't Hoff factor is 1.92 ,the molality of NaCl solution is ( K_(b) for water = 0 . 52 k kg mol^(-1) )

Let a fully charged lead-storage battery contains 1.5 L of 5MH_2SO_2 . What will be the concentratis of H_2SO_4 in the battery after 2.5 ampere current is drawn from the battery for 6 hour?

An aqueous solution containing 5% by weight of urea and 10% by weight of glucose . What will be the DeltaT_(f) of the solution ( K_(f) for H_(2)O is 1.86^(0) K-molal)

Calculate the approximate DeltaT_(b) (in K) for 0.001 molal KCl solution, if its van' t-Hoff factor is 1.98 [K_(b)" of water is -0.52 K kg mol"^(-1)]

Calculate the approximate Delta T_(b) (in K ) for 0.001 molar KCI solution if its van's Hoff factors is 1.98. [ K_(b) of water is 0.52 K kg mol^(-1) ]

1.2 mL acetic acid having density 1.06 g cm^(-3) is dissolved in 1 litre of water. The depression in freezing point observed for this concentration of acid was 0.041 ""^(@)C . The van't Hoff factor of the acid is ( K_(f) of water = 1.86 K kg mol^(-1) )