Five molecules of a gas are moving with speed 1, 2, 3, 4, 5 km/sec. What is their root mean square speed ?

The absolute temperature of a gas is increased to four times . What will be the change in its root mean square speed.

The temperature of an ideal gas is increased from 120 K to 480 K. If at 120 K, the root mean square speed of gas molecules is v, then at 480 K it will be

The absolute temperature of a gas is increased to 3 times. What will be the increase in root mean square velocity of the gas molecule.

If a man walks along the four sides of a square ground with speeds v_1 , v_2 , v_3 and v_4 km/hour respectively, then what would be his average speed?

The mean square speed of the molecules of a fixed mass of a gas is 6.8 times 10^4 m^2.s^-2 calculate the mean square speed of the molecules when the gas has been compressed adiabatically to half of its original , volume The ratio of the specific heat capacity of the gas at constant pressure to that at constant volume is 1.30.

The velocities of two particles moving towards east to 4m.s^-1 and 6m.s^-1 , respectively The velocities of three other particles moving towards west are 2m.s^-1,3m.s^-1 and 5 m.s^-1 respectively. The root mean square speed of these 5 particles is

The temperature of an ideal gas is increased from 140 K to 560 K. If.at 140 K the root mean square velocity of the gas molecules is u, at 560 K it becomes :

Which one is used to calculate the average kinetic energy of gas molecules, average speed or root mean square speed?

A gas bulb of 1L capacity contains 2.0xx10^(21) molecules of nitrogen exerting a pressure of 7.57xx10^(3)N*m^(-2) . Calculate the rms velocity and temperature off the gas. If ratio of most probable speed to the root mean square speed in 0.82, calculate the most probable speed of the molecules at this temperature.