The rms speed of the molecule of enclosed gas is v. What will be the rms speed if pressure is doubled keeping the temperature same?

The root mean square speed of the molecules of an enclosed gas is 'v'. What will be the root mean square speed if the pressure is doubled, the temperature remaining the same?

The rms speed of a gas molecule is

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 ?

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 r.m.s speed of the molecules of an ideal gas Is V_0 If pressure of the gas is halved but temperature is kept constant then r.m.s. speed of the gas molecule will be

The root mean square speed of the molecule at constant pressure at temperature T is v, what is its rms speed, if temperature is reduced to (T)/(2)?

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.

The root mean square speed fo molecules of nitrogen gas is v at a certain temperature. When the temperature is doubled, the molecules dissociate into individual atoms. The new rms speed of the atom is:

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.