25.4 g of `I_(2)` and 14.2g of `Cl_(2)` react together to form a mixture of `IC l` and `IC l_(3)`. What is the ratio of the number of molesof `IC l` and `IC l_(3)` in the product mixture?

25.4g of iodine and 14.2g of chlorine react together to form a mixxture of IC l and IC l_(3) . Find the ratio of the number of moles of IC l and IC l_(3) in the mixture. (Relative atomic mass of Cl and I are 35.5 and 127 respectively).

At 10^(-3)mm pressure and 300 K, a 2L flask contains equal numbers of moles of N_(2) and water vapour. (i) what is the total number of moles of N_(2) and water vapour in the mixture ? (ii) what is the total mass of the mixture?

What is shape of the orbital with (i) n = 2 and l = 0 , (ii) n = 2 and l = 1?

(1) an atomic orbital has n=3. what are the possible values of l and m_(l) ? (2) List the quantum numbers ( m_(l) and l ) of electrons for 3d orbital.

Let l_(1),m_(1),n_(1),l_(2),m_(2),n_(2)" and "l_(3),m_(3),n_(3) be the durection cosines of three mutually perpendicular lines. Show that the direction ratios of the line which makes equal angles with each of them are (l_(1)+l_(2)+l_(3)),(m_(1)+m_(2)+m_(3)),(n_(1)+n_(2)+n_(3)) .

A line l passing through the origin is perpendicular to the lines l_(1) : (3 + t) hat(i) + (-1 + 2t) hat(j) + (4 + 2t) hat(k), -oo lt t lt oo l_(2) : (3 + 2s) hat(i) + (3 + 2s) hat(j) + (2 + s)hat(k), -oo lt s lt oo Then the coordinate (s) of the point (s) on l_(2) at a distance of sqrt17 from the point of intersection of l and l_(1) is (are)

A 2L flask contains 0.4 g O_(2) and 0.6 g H_(2) at 100^(@)C . Calculate the total pressure of the gas mixture in the flask.

0.76 g of a mixture of hydrogen and oxygen gases has a volume of 2L temperature of 300 K and pressure of 10^5 N.m^-2 . Find out the individual masses of hydrogen and oxygen in the mixture.

10g of water at 30^(@)C and 5g of ice at -20^(@) C are mixed together in a calorimeter. What is the final temperature of the mixture? Given specific heat of ice= 0.5 cal g^(-1) (""^(0)C)^(-1) and latent heat of fusion of ice =80 cal g^(-1)