50 ml of oxygen wre collected at `10^(@)C` under 750 mm pressure. Calculate volume at STP.

In a Duma's method 0.3g of an organic compound gave 50ml of nitrogen collected at 27^(@)C and 715mm pressure . The percentage of N is (aqueous tension at 27^(@)C=15mm ) :

A current of 5.0 A is passed through a 100L aqueous solution of sodium soccinate for 4.0h . The gases produced at anode are collected separately at 25^(@)C and 1.0 atm pressure. Find the volume of gases. Also find the pH of solution at the end of electrylysis . ( Assume that at the start of electrolysis, pH of solution is 7.0 at 25^(@)C)

160 ml of a gas are collected over water at 25^(@)C and 768.8mm Hg. If aqueous tension at 25^(@)C is 23.8 mm Hg, then pressure of dry gas at 25^(@)C is 1:29 PM

The molar masses of oxygen and sulphur dioxide are 32 and 64 respectively. If 1 L of oxygen at 25^@C and 750 mm Hg pressure contains N molecules, then the number of molecules in 2 L sulphur dioxide under the same conditions of temperature and pressure is :

300 mL of gas at 27^@C is cooled to 10^@C at constant pressure, the final volume is :

300 ml of gas at 27^(@)C is cooled to -3^(@)C at constant pressure. The final volume is

An organic compound C_xH_(2y)O_y was burnt with twice the amount of oxygen needed for complete combustion to CO_2 and H_2O . The hot gases when cooled to 0^@C and 1 atm pressure, measured 2.24 litre. The water collected during cooling weighed 0.9 gm. the vapour pressure of pure water at 20^@C is 17.5 mm Hg and is lowered by 0.104 mm when 50 gm of the organic compound is dissolved in 1000 gm of water. Give the molecular formula of the organic compound.