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Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry PDF Download

Collision Theory

Collision theory states that for a chemical reaction to occur, the reacting particles must collide with one another.

The rate of the reaction depends on the frequency of collisions. The three main points of collision theory for a chemical reaction to take place are:

  • Reacting substances must collide 
  • The colliding particles should have sufficient energy 
  • The substances must collide in a set orientation.

Collision diameter is defined as the distance between the centers of two colliding molecules when at their closest point of approach. Collision diameter is inversely proportional to the molecular mass of the molecule. This is because the molecules with higher molecular mass have a greater radius.
d α 1/M
Since the size of the atom is big, there is a lot of free space and the electron density is relatively less. Due to this the atoms can come close due to reduced electron-electron repulsions. Let us calculate the molecular mass of the molecules mentioned in the options:
H2 has a molecular mass of 2 g
He has a molecular mass of 4 g
CO2 has a molecular mass of 44 g
N2 has a molecular mass of 28 g
CO2 has the highest molecular mass and will have the least collision diameter.


Collision Frequency

Collision frequency describes the rate of collisions between two atomic or molecular species in a given volume, per unit time.

In an ideal gas, assuming that the species behave like hard spheres, the collision frequency between A and B is:
Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry
SI unit of Z is number of collision per time m3s-1.
where:

  • NA is the number of A molecules in the gas,
  • NB is the number of B molecules in the gas,
  • σAB is the collision cross-section (unit m2), the area when two molecules collide with each other, simplified to σAB = π(rA + rB)2, where rA the radius of A and rB the radius of B.
  • kB is the Boltzmann's constant (unit m2 kg s-2 K-1)
  • T is the temperature (unit K),
  • μAB is the reduced mass of the reactants A and B, Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry

Concept of Mean Free Path

The mean free path λ of a gas molecule is its average path length between collisions

Mathematically the mean free path can be represented as follows:
Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry

  • Let’s look at the motion of a gas molecule inside an ideal gas, a typical molecule inside an ideal gas will abruptly change its direction and speed as it collides elastically with other molecules of the same gas. 
  • Though between the collisions the molecule will move in a straight line at some constant speed, this is applicable for all the molecules in the gas.
  • It is difficult to measure or describe this random motion of gas molecules thus we attempt to measure its mean free path λ.
    Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry
  • As its name says λ is the average distance travelled by any molecule between collisions, we expect λ to vary inversely with N/V, which is the number of molecules per unit volume or the density of molecules because if there are more molecules more are the chances of them colliding with each other hence reducing the mean free path, and also λ would be inversely proportional to the diameter d of the molecules, because if the molecules were point masses then they would never collide with each other, thus larger the molecule smaller the mean free path, and it should be proportional to π Times Square of the diameter and not the diameter itself because we consider the circular cross-section and not the diameter itself.

Derivation of Mean Free Path

  • We will derive the equation using the following assumptions, let’s assume that the molecule is spherical, and the collision occurs when one molecule hits the other, and only the molecule we are going to study will be in motion and rest molecules will be stationary.
  • Let’s consider our single-molecule to have a diameter of d and all the other molecules to be points this does not change our criteria for collision, as our single-molecule moves through the gas, it sweeps out a short cylinder of cross-section area πd2 between successive collisions, for a small-time t it will move a distance of vt where v is the velocity of the molecule, now if we sweep this cylinder we will get a volume of πd2*vt so the number of point molecules inside this volume will give us the number of collisions the molecule might have,
  • Since N/V is the number of molecules per unit volume, the number of molecule in the cylinder will be N/V multiplied by the volume of cylinder i.e.πd2vt, the mean free path can be derived as follows,
    Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry
  • Why we have approximated the equation is because we have assumed that all the particles are stationary with respect to the particle we are studying, in fact, all the molecules are moving relative to each other, we have cancelled two velocities in the above equation but actually the v in the numerator is the average velocity and v In the denominator is relative velocity hence they both differ from each other with a factor √2, therefore, the final equation would be,
    Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry
    Mean free path at sea level is 0.1 micrometer.
The document Collision Theory, Mean Free Path & viscosity of gases | Physical Chemistry is a part of the Chemistry Course Physical Chemistry.
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FAQs on Collision Theory, Mean Free Path & viscosity of gases - Physical Chemistry

1. What is collision theory?
Ans. Collision theory explains that chemical reactions occur when reactant molecules collide with sufficient energy and proper orientation. It states that successful collisions result in the formation of new products while unsuccessful collisions do not lead to a reaction.
2. How is collision frequency defined?
Ans. Collision frequency is the number of collisions that occur per unit time in a gas sample. It is affected by factors such as the concentration of reactant molecules, temperature, and pressure. Higher concentrations, temperatures, and pressures generally lead to an increase in collision frequency.
3. What is the concept of mean free path?
Ans. The mean free path is the average distance traveled by a gas molecule between successive collisions with other molecules. It provides an understanding of how far a molecule can move before encountering another molecule. Mean free path depends on the size of the gas molecules and the density of the gas.
4. How is the mean free path derived?
Ans. The mean free path can be derived by considering the total distance traveled by a gas molecule in a given time period and dividing it by the number of collisions. Mathematically, it is calculated as the inverse of collision frequency multiplied by the average speed of the gas molecules.
5. How does collision theory relate to the viscosity of gases?
Ans. Collision theory is closely related to the viscosity of gases. Viscosity is a measure of a fluid's resistance to flow. In gases, viscosity is influenced by the frequency and strength of collisions between gas molecules. Higher collision frequency and stronger collisions lead to higher viscosity, while lower collision frequency and weaker collisions result in lower viscosity.
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