0.6 ml acetic and having the density 1.06 g `mL^(-1)` is dissolved in 1 litre water. It's shows the depression in freezing point of `0.020.5^@`C. Calculate want haff factor and Ka of an acid.

19.5g of CH_(2)FCOOH is dissolved in 500g of water . The depression in the freezing point of water observed is 1.0^(@)C . Calculate the Van't Hoff factor and dissociation constant of fluoroacetic acid.

To 500 cm^(3) of water, 3 xx 10^(-3) kg of acetic acid is added. If 23% of axcetic acid is dissociated wha will be the depression in freezing point? K_(f) and density of water are 1.86 K kg^(-1) mol^(-1) and 0.997 g cm^(-3) respectively.

What mass of NaCI ("molar mass" =58.5g mol^(-1)) be dissolved in 65g of water to lower the freezing point by 7.5^(@)C ? The freezing point depression constant, K_(f) , for water is 1.86 K kg mol^(-1) . Assume van't Hoff factor for NaCI is 1.87 .

1.5g of monobasic acid when dissolved in 150g of water lowers the freezing point by 0.165^(@)C.0.5g of the same acid when titrated, after dissolution in water, requires 37.5 mL of N//10 alkali. Calculate the degree of dissociation of the acid (K_(f) for water = 1.86^(@)C mol^(-1)) .

If 20 mL of ethanol (density =0.7893g//mL) is mixed with 40mL water (density = 0.9971g//mL) at 25^(@)C , the final slution has density of 0.9571g//mL . Calculate the percentage change in total volume of mixing. Also calculate the molarity of alcohol in the final solution.