A current is passed through 2 voltameters connected in series. The first voltameter contains `XSO_(4)` (aq). And second has `Y_(2)SO_(4)` (aq). The relative atomic masses to X and Y are in the ratio of `2:1` the ratio of the mass of X liberated to the mass Y liberated is

A current is passed through 2 voltmeters connected in series. The first voltmeter contians XSO_4)(aq) and second has Y_(2)SO_(4) (aq). The relative atomic masses of X and Y are in the ratio 2:1 . The ratio of the mass of X liberated to the mass of Y liberated is:

A current is passed through two cells connected in series. The first cell contains X (NO_(3) )_( 3) (aq) and the second cell contains Y (NO_(3) )_( 2) (aq). The relative atomic masses of X and Y are in the ratio 1: 2 . What is the ratio of liberated mass of X to that of Y?

An electric current is passed through two voltameters connected in series and containing CuSO_4 and AgNO_3 solutions respectively. The masses of copper and silver deposited are 0.424 g and 1.44 g respectively. Find the equivalent mass of silver if that of copper is 31.75.

A compound contains elements X and Y in 1 : 4 mass ratio. If the atomic masses of X and Y are in ratio 1 : 2, then empirical formula will be

If the mass ratio of O_2 and N_2 is 4:7 , then the ratio of their moles is

Find the equation of a line passes through (3,4) and the ratio of its intercepts on X and Y -axis is 3 : 2 .

An electric current is passed through a circuit containing two wires of the same material connected in parallel. If the lengths and radii of the wire are in the ratio (4)/(3) and (2)/(3) , then the ratio of the currents passing through the wires will be

If two gases X and Y have their molecules travelling at the velocities in the ratio of 3 : 1 . The ration of their molecular mass M_(x)//M_(y) will be

At STP the density of a gas X is three times that of gas Y while molecule mass of gas Y is twice that of X. The ratio of pressures of X and Y will be:

At STP the density of a gas X is three times that of gas Y while molecule mass of gas Y is twice that of X. The ratio of pressures of X and Y will be: