If the mass of all molecules of a gas are halved and their speeds doubled then the ratio of initial and final pressure will be

Fill in the blanks: All the molecules a gas are …………in energy respect.

If c is r.m.s. speed of molecules in a gas and v is the speed of sound wave in the gas , show that c/v is constant and independent of temperature for all diatomic gases.

The rms speed of N_(2) molecules in a gas in u . If the temperature is doubled and the nitrogen molecules dissociate into nitrogen atom, the rms speed becomes

For a gas gamma=5 // 3 and 800 cc of this gas are suddenly comperssed to 100 cc.If the initial pressure is P,then the final pressure will be :

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

One mole of H_2 gas is contained in a box of volume V = 1.00 m^3 at T = 300 K . The gas is heated to a temperature of T = 3000K and the gas gets converted to a gas of hydrogen atoms. The final pressure would be (considering all gases of be ideal)

If at 50^@C and 75 cm of mercury pressure , a definite mass of a gas is compressed slowly, then what will be the final pressure and temperature of the gas if the final volume is one-fourth of the initial volume?