Glucose is added to 1 litre water to such an extent that `(DeltaT_(f))/(K_(f))` becomes equal to `(1)/(1000)`, the mass of glucose added is :

Glucose is added to 1 litre water to such an extent that (Delta T_(f))/(K_(f)) becomes equal to (1)/(1000) , the weight of glucose added is:

At 27^(@)C,a1.2% solution ( wt.//"vol.") of glucose is isotonic with 4.0g//"litre" of urea solution. Find the molar mass of urea, if the molar mass of glucose is 180 . Also report the osmotic pressure of solution if 100mL of each are mixed at 27^(@)C . ( R=0.082 L atm "mol"^(-1)K^(-1) , Molar mass of glucose =180g//"mole" )

(a) A 10% solution (by mass) of sucrose in water has freezing point of 269.15K. Calculate the freezing point of 10% glucose in water, if the freezing point of pure water is 273.15K. Given: (molar mass of sucrose=342 g mol^(-1) ) (Mola mass of glucose =180g mol^(-1) ) (b) Define the following terms: (i) Molality (m) (ii) Abnormal molar mass

2 moles of non - volatile solute is added to 1 kg water at -8^(@)C. K_(f) of water is 2 "K kg mol"^(-1) . Mass of ice that separates out is (Ignoring the effect of change in volume)

If sodium sulphate is considered to be completely dissociated into cations and anions in aqueous solution , the change in freezing point of water (DeltaT_(f)) when 0.01 mole of sodium sulphate is dissociated in 1 kg of water is : ( K_(f) = 1.86 K kg mol^(-1) )

A 10% solution (by mass) of sucrose in water has freezing point of 269.15 K. Calculate freezing point of 10% glucose in water, if freezing point of pure is 273.15 K (Given molar mass of sucrose= 342 g mol^(-1) , Molar mass of glucose =180 g mol^(-1) ).

An open beaker to water in equilibrium with water vapour is in a sealed container . When a few grams of glucose are added to the beaker of water , the rate at which water molecules :

Two solutions of non-volatile and non-electrolyte solute A and B are prepared separately. The molar mass ratio (M_(A))/(M_(B))=1/3 . Both are prepared as 5% by weight solution in water. Then what is the ratio of freezing point depresions, ((DeltaT_(f))_(A))/((DeltaT_(f))_(B)) of the solutions?

Answer the following questions : Why the freezing point depression ( DeltaT_(f) ) of 0.4M NaCl solution is nearly twice than that of 0.4M glucose solution ?

The P^(H) of a I lit solution is 2. It is diluted with water till its p^(H) becomes 4, How many litres of water is added?