Dry air is slowly passed through three solutions of different concentrations, `C_(1),C_(2)` and `C_(3)`, each containing (non-volatile) `NaCl` as solute and water as solvent, as shown in the Fig. If the vessel `2` gains weight and the vesel `3` loses weight then:

Three capacitors C_(1), C_(2) and C_(3) are connected to a 6 V battery, as shown in Fig. Find the charges on the three capcitors.

In Ostwald and Walker's appratus, dry air is passed through a solution containing 20 gram of an organic non-volatile solute in 250 ml of water. Then the air was passed through pure water and then through a U-tube containing anhydroous CaCl_(2) . The mass lost in solution is 26 gram and the mass gained in the U-tube is 26.48 gram. Calculate the molecular mass of organic solute.

Dry air was passed successively through a solution of 5 g of a solute in 180 g water and then through pure water. The loss in weight of solutionwas 250 g and that of pure solvent 0.04 g . The molecular weight of the solute is

A current of dry air was passed first through a series of bulbs containing a solution of C_(6)H_(5) - NO_(20 in ethanol of molality 0.725 and then through a series of bulbs containing pure ethanol. (T = 284 K) loss in weight of the solvent bulbs was 0.0685 g. Calculate the loss in weight of the solution bulbs.

Dry air was successively passed through a solution of 5g solute in 80g water and then through pure water. The loss in weight of solution was 2.5g and that of pure water was 0.04g . What is mol. wt. of solute ?