Among 1% solutions of urea. Glucose and sucrose

Statement-I: 0.02m solutions of urea and sucrose will freeze at same temperature. Because Statement-II: Freezing point of a solution is inversely proportional to the conc. of solution.

A solution containing 2.7 gm of urea per 100 ml of the solution is isotonic with a solution of sucrose. How many grams of sucrose are present in 500 mL of the solution ?

Sucrose decomposes in acid solution into glucose and fructose according to the first order rate law, with t_(1//2)=3.00hr. What fraction of sample of sucrose remains after 8 hr ?

Assertion (A): 0.1 M solution of glucose has same increment in freezing point than has 0.1 M solution of urea. Reason (R ): K_(f) for both has different value.

An aqueous solution of urea containing 18 g urea in 1500 cm^(3) of solution has a density of 1.5 g//cm^(3) . If the molecular weight of urea is 60. Then the molality of solution is:

An aqueous solution of urea containing 18 g urea in 1500 cm^(3) of solution has density equal to 1.052. If the molecular weight of urea is 60, find the molality of the solution.

The osmotic pressure of 0.1 M glucose and 0.1 M sucrose solution are the same because

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) ).

A solution containing 15 g urea (molar mass =60" g mol"^(-1) ) per litre of solution in water has the same osmotic pressure (isotonic) as a solution of glucose (molar mass = 180" g mol"^(-1) ) in water. Calculate the mass of glucose present in one litre of its solution.

Assertion : A solution of sucrose in water is dextrorotatory. But on hydrolysis in the presence of a little hydrochloric acid, it becomes laevaorotatory. Reason : Sucrose on hydrolysis gives unequal amounts of glucose and fructose. As a result of this, change in sign of rotation is observed.