Find the rms speed of oxygen molecules in a gas at 300K.

The rms speed of a gas molecule is

The rms speed of oxygen molecules in a gas in a gas is v. If the temperature is doubled and the oxygen molecules dissociate into oxygen atoms, the rms speed will become

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

(a) What is the average translational kinetic energy of a molecule of an ideal gas at temperature of 276@ C ? (a) What is the total random translational kinetic energy of the molecules in one mole of this gas ? ( c) What is the rms speed of oxygen molecules at this temperature ?

Find the temperature at which oxygen molecules would have the same rms speed as of hydrogen molecules at 300 K .

Find the rms speed of hydrogen molecules at room temperature ( = 300 K) .

If v_(rms) is the rms speed of molecules in a gas and v is the speed of sound waves in the gas, then the ratio (v_(rms))/v is

The root mean square speed of hydrogen molecule at 300 K is 1930m/s. Then the root mean square speed of oxygen molecules at 900K will be………..

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

Call the (rms) speed of the molecules in an ideal gas V_(0) at temperature T_(0) and pressure p_(0) . Find the speed if (a) the temperature id raised from T_0 = 293 K "to" 573 K (b) the pressure is doubled and T = T_0 ( c) the molecular weight of each of the gas molecules is tripled.