Collision frequency (Z) of a gas at a particular pressure

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 the collision frequency of a gas at 1 atm pressure is Z , then its collision frequency at 0.5 atm is

The curve of pressure volume (PV) against pressure (P) of the gas at a particular temperature is as shown, according to the graph which of the following is/are incorrect (in low pressure region):

If X is the total number of collisions that a gas molecule registers with other molecules per unit time under particular conditions, then what is the collision frequency of the gas containing N molecules per unit volume 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

In the plot of Z (compressibility factor) vs P,Z attains a value of unity at a particular pressure. What does it signify?

The graph that correctly represents the relation of frequency v of a particular characteristic X - ray with the atomic number Z of the material is

Study of fluctuations in the frequency of alleles due to selection pressure is

Suppose there are N molecules each of mass m, of an ideal gas in a container. The x component of velocity of a molecule is denoted by u_(x) . The gas is enclosed using a horizontal piston of area A as shown. The pressure of the gas can also be written in terms of momentum transferred per collision (Deltap) and collision frequency (f) on the wall of area A as

A : Arrhenius parameter (A) = P (steric factor) xx z (collision frequency) R : On increasing temperature , the value of A increases.