In thermal equilibrium the rms velocity of a gas molecule is

In a container of volume 1L, there are 10^(23) gas molecules, each of which has a mass of 10^(-22) g. at a certain temperature, if the rms velocity of these molecules is 10^(5)cm*s^(-1) , then what would be the pressure at the temperature inside the container?

Temperature of an ideal gas initially at 27^@C is raised by 6^@C , The rms velocity of the gas molecule will

At what temperature will the rms velocity of SO_(2) molecules be equal to the rms velocity of O_(2) molecules at 25^(@)C ?

When the temperature of a gas is raised from 30^(@) C to 90^(@) C, the percentage increase in the rms velocity of the molecules will be

The temperature of a gas is increased from 27 ^(@) C to 327 ^(@ ) C . Show that the rms velocity of the gas molecules at higher temperature is sqrt(2) times the velocity at the intial temperature .

The temperature of a gas in increased from 27^@C to 327^@C . Show that the rms velocity of the gas molecules at higher temperature is sqrt2 times the velocity at the initial temperature.

We know that the velocity of a gas molecule is approximately equal to the velocity of a rifle bullet,Yet,a gas molecule spends much longer time than a bullet does to travel equal distance Explain.

How does the average velocity or the root mean square velocity of gas molecules depend on temperature and pressure?