A sugar syrup of weight `214.2 g` contains `34.2 g` of sugar `(C_(12) H_(22) O_(11))`. Calculate
a. the molal concentration.
b. the mole fraction of the sugar in the syrup.

A sugar syrup of weight 214.2 g contains 34.2 g of sugar ( molar mass = 342). The molality of the solution is :

The vapour pressure of a dilute aqueous solution of glucosse (C_(6)H_(12)O_(6)) is 750 mm Hg at 273 K . Calculate (a) molality and (b) mole fraction of the solute.

A solution contains 2.5 mol of H_(2) O . Calculation the mole fraction of each component of the solution.

Calculate the number of atoms of each type that are present in 3.42 g of sucrose (C_(12) H_(22) O_(11)) .

Osmotic pressure of a sugar solution at 24^(@)C is 2.5 atm. The concentration of the solution in gm mole per litre is :

The total number of atoms present in 0.1 mole of sucrose (C_12H_22O_11) is :

The percentage composition by mass of a solution is 20% urea (NH_(2) CONH_(2)) , 40% glucose (C_(6) H_(12) O_(6)) , and 40% water (H_(2) O) . Calculate the mole fraction of each component of the solution.

A 4% solution of sucrose C_(12)H_(22)O_(11) is isotonic with 3% solution of an unknown organic substance. Calculate the molecular mass of the unknown substance.

Ethylene bromide C_(2)H_(4)Br_(2) , and 1,2 -dibromopropane, C_(3)H_(6)Br_(2) ,form a series of ideal solutions over the whole range of composition. At 85^(@)C , the vapour pressure of these two pure liquids are 173 and 127 torr, respectively. . If 10.0 g of ethylene bromide is dissolved in 80.0 g of 1,2-dibromopropane, calculate the partial pressure of each component and teh total pressure of the solution at 85^(@)C . b. Calculate the mole fraction of ethylene bromide in the vapour in equilibrium with the above solution. c. What would be the mole fraction of ethylene bromide in a solution at 85^(@)C equilibrated with a 50 : 50 mole mixture in the vapour?

12.5 g of H_(2)SO_(4) are dissolved in water to make 1250 ml of solution. The concentration in normality is :