A `0^(@)C` the density of a fixed mass of a gas divided by pressure is x. At `100^(@)C`, the ratio will be

Calculate the density of ammonia (NH_3) at 30^@C and 5 bar pressure.

The density of a gas at 27^@C and 1 bar pressure is 2.56 gL^-1 .Calculate the molar mass.

If , at 50^@C and 75 cm of mercury prssure , a definite mass of a gas is compressed suddenly, then what will be the final pressure and temperature of the gas in each case if the final volume is one - fourth of the initial volume ? (y = 1.5)

If , at 50^@C and 75 cm of mercury prssure , a definite mass of a gas is compressed slowly, then what will be the final pressure and temperature of the gas in each case if the final volume is one - fourth of the initial volume ? (y = 1.5)

At "_____________" , the volume of a given mass of gas is double as compared to its volume at 0^(@)C . Pressure is kept constant throughout.

The density of a certain mass of a gas at STP is d . If the pressure of the gas is doubled and the temperature is made one-third of its initial value, the new density will be

The temperature of a gas at pressure P and volume V is 27^(@)C . Keeping its volume constant. If its temperature is raised to 927^(@)C , then its pressure will be

At 0^@C , the detiny of a certain oxide of a gas at 2 bar is same as that of dinitrogen at 5 bar. What is the molecular mass of the oxide?

The molecules of a given mass of a gas have root mean square speeds of 100 m s ^(-1) at 27^@C and 1.00 atmospheric pressure . What will be the root mean square speeds of the molecules of the gas at 127^@C and 2.0 atmospheric pressure ?

The volume of a given mass of a gas at 27^@C , 1 atm is 100 cc . What will be its volume at 327^@C ?