For a given gas at 1 atm pressure, rms speed of the molecules is 200 m/s at `127^(@)C`. At 2 atm pressure and at `227^(@)C`, the rms speed of the molecules will be:

For a given gas at 1 atm pressure, rms speed of the molecule is 300m/sec at 27°C. At 2 atm pressure and at 127°C the rms speed of the molecules will be (A) 300m/sec (B) 400m/sec (C)346.4m sec (D)743m/ sec

The rms speed of a gas molecule is

The rms speed of oxygen molecule in a gas at 27^(@)C would be given by

Calculate the rms speed of helium atoms at 127^(@) C .

The rms speed of helium at 24^(@)C and 1 atm pressure is 450ms^(-1) . Then the rms speed of the helium molecules at 24^(@)C and 2 atm pressure is

The r.m.s. speed of the molecules of a gas at 100^(@)C is v. The temperature at which the r.m.s. speed will be sqrt(3)v is

The rms speed of the perfect gas molecules is doubled if.

The rms speed of helium gas at 27^(@)C and 1 atm pressure is 900 ms^(-1) . Then the rms speed of helium molecules at temperature 27^(@)C and 2 atm pressure is

If the rms speed of nitrogen molecules is 490 m s^(-1) at 273 K, find the rms speed of hydrogem molecules at the same temperature.