Assuming the same pressure in each case calculate the mass of hydrogen required to inflate a balloon to a certain volume `V` at `100^(@)C` if `3.5 g` helium is required to inflate the balloon to half the volume `V` at `25^(@)C` .

Calculate the total pressure in a mixture of 4 g of oxygen and 2 g of hydrogen confined in a total volume of 1 L at 0^(@)C .

Calculate the total pressure in a mixture of 4 g of oxygen and 2 g of hydrogen confined in a total volume of 1 L at 0^(@)C .

The volume of a certain mass of gas at N.T.P. is 27.5 cm^(3) . What pressure will be necessary to keep the volume same at 27^(@)C ?

Calculate the volume in mL hydrogen peroxide labelled 10 volume required to liberate 600 mL of oxygen at 27^(@)C and 760 mm .

If V_(0) is the volume of a given mass of gas at 278 K at a constant pressure then according to Charle's law, the volume at 10^(@)C will be

One gram of hydrogen and 112 g of nitrogen are enclosed in two separate containers each of volume 5 L and at 27^@C . If the pressure of the hydrogen is 1 atm, then the pressure of nitrogen would be

A weather forcecasting plastic balloon of volume 15m^(3) contains hydrogen of density 0.09kgm^(-3) . The volume of an equipment carried by the balloon is negligible compared to its own volume. The mass of empty balloon alone is 7.15 kg. The balloon is floating in air of density 1.3kgm^(-3) . Calculate (i) the mass of hydrogen in the balloon. (ii) the mass of hydrogen and balloon, (iii) the total mass of hydrogen, balloonand equipment if the mass of equipment is x kg. (iv) the mass of air displaced by balloon and (v) the mass of equipment using the law of floatation.

A steel cylinder of intemal volume 20 litres is filled with hydrogen at 29 atmospheric pressure. If hydrogen is used to fill a balloon at 1.25 atmospheric pressure at the same temperature, what volume will the gas occupy?

What is the pressure exerted by a mixture of 3.5 g of nitrogen and 2 g of helium when confined in a vessel of volume 40 liters at 0^(@)C ?

A sample of ideal gas undergoes isothermal expansion in a reversible manner from volume V_(1) to volume V_(2) . The initial pressure is P_(1) and the final pressure is P_(2) . The same sample is then allowed to undergoes reversible expansion under adiabatic conditions from volume V_(1) to V_(2) . The initial pressure being same but final pressure is P_(3) . Which relation is correct (gamma = (C_(P))/(C_(V))) ?