Two gaseous molecules `A` and `B` are traveling towards each other. Let the mean free path of the molecule be `sigma` and `Z` be the collision number with other molecules at pressure `1 atm`. Answer the following questions
The free path of gas molecule is the distance

Two gaseous molecules A and B are traveling towards each other. Let the mean free path of the molecule be sigma and Z be the collision number with other molecules at pressure 1 atm . Answer the following questions If the mean free path is sigma at 1 atm pressure, then its value at 5 atm pressure is

Two gaseous molecules A and B are traveling towards each other. Let the mean free path of the molecule be sigma and Z be the collision number with other molecules at pressure 1 atm . Answer the following questions If the collision frequency of a gas at 1 atm pressure is Z , then its collision frequency at 0.5 atm is

Two gaseous molecules A and B are traveling towards each other. Let the mean free path of the molecule be sigma and Z be the collision number with other molecules at pressure 1 atm . Answer the following questions If Z is the total number of collisions which a gas molecule registers with others per unit time under particular conditions, then the collision frequency of the gas containing N molecules per unit volume is

The mean free path of a gas molecule is the distance

Mean free path of a molecule is

The mean free path of collision of gas melecules varies with its diameter (d) of the molecules as

The mean free path of molecules of an ideal gas of diameter d is proportional to

If the pressure in a closed vessel is reduced by drawing out some gas, the mean free path of the molecules

The mean free path of molecules of a gas (radius r) is inversely proportional to

The mean free path l for a gas molecule depends upon diameter d of molecule as