Two flasks A and B of 500 mL each are respectivelly filled with `O_(2)" and "SO_(2)` at 300 K and 1 atm. Pressure . The flasks will contain:

Four one litre flasks are seperately filled with gases O_2,F_2, CH_4 and CO_2 under same conditions. The ratio of number of molecules in these flasks is

Consider three one-litre flasks labeled A, B and C filled with the gases NO, NO_(2) and N_(2)O respectively, each at 1 atm and 273 K. In which flask do the molecules have the highest average kinetic energy?

The flask A and B of equal size contain 2g of H_2 and 2g of N_2 repectively at the same temperature. The number of molecules in flask

10 ml of H_(2)O_(2) could release 224 ml of O_(2) at 273K and 2 atm pressure. What is the molarity of that H_(2)O_(2)

Two flasks A and B have equal volumes. A is maintained at 300 K and B at 600 K. while A contains H_(2) gas, B has an equal mass of CH_(4) gas. Assuming ideal behaviour for the both gases find the ratio of (u_(av))_(A): (u_(av))_(B) .

Two flasks A and B have equal volumes. A is maintained at 300 K and B at 600 K, while A contains H_(2) gas, B has an equal mass of CO_(2) gas. Find the ratio of total K.E. of gases in flask A to that of B.

A flask contains 3g H_(2) and 24g O_(2). The partial pressure of hydrogen in the mixture is

A 3 litre flask contains 2.2 gms of CO_2 and some mass of oxgyen. If the pressure of the mixture is 1.2 atm at 27^@C , Calculate the partial pressure and the mass of oxygen.