The molecules of a given mass of have rms speed `200 ms^(-1)` at `27^(@)C` and `10^(5) Nm^(-2)` pressure. When the absolute temperature is double and the pressure is halved, the rms speed of the molecules of the same gas is

The molecule of a given mas of gas have r.m.s. speed 200 ms^(-1) at 27^(@)C and 10^(5)Nm^(-2) pressure. When the absolute temperature is doubled and the pressure is halved, then find rms speed of the molecules of the same gas.

The molecules of a given mass of gas have an rms velocity of 200m s^(-1) at 27^@C and pressure 1 atm. When the temperature is 127^@C and pressure is 2 atm, the rms velocity in m s^(-1) will be ?

If pressure and temperature of an ideal gas are doubled and volume is halved, the number of molecules of the gas

The molecules of a given mass of a gas have rms velocity of 200 m/s at 27^(@)C and 1.0 xx 10^(5) N//m_(2) pressure. When the temperature and pressure of the gas are respectively 127^(@)C and 0.05 xx 10^(5) Nm^(-2) , the rms velocity of its molecules in ms^(-1) is (a) (400)/(sqrt(3)) (b) (100sqrt(2))/(3) (c) (100)/(3) (d) 100sqrt(2)

The molecules of a given mass of a gas have rms velocity of 200 m//s at 27^(@)C and 1.0 xx 10^(5) N//m_(2) pressure. When the temperature and pressure of the gas are respectively 127^(@)C and 0.05 xx 10^(5) Nm^(-2) , the rms velocity of its molecules in ms^(-1) is

The molecules of a given mass of a gas have root mean square 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 gas at 127^(@)C and 2.0 atmospheric pressure?

The molecules of a given mass of a gas have root mean square 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 gas at 127^(@)C and 2.0 atmospheric pressure?

Find rms speed of Lithium molecules at temperature 27^(@)C ..

Find rms speed of Nitrogen molecules at temperature 27^(@)C .

Find rms speed of Chlorine molecules at temperature 27^(@)C .