Graham’s Law of Diffusion and Effusion

Graham's Law of Diffusion and Effusion

(1) Diffusion is the process of spontaneous spreading and intermixing of gases to form homogenous mixture irrespective of force of gravity. While Effusion is the escape of gas molecules through a tiny hole such as pinhole in a balloon.

* All gases spontaneously diffuse into one another when they are brought into contact.
* Diffusion into a vacuum will take place much more rapidly than diffusion into another place.

* Both the rate of diffusion of a gas and its rate of effusion depend on its molar mass. Lighter gases diffuses faster than heavier gases. The gas with highest rate of diffusion is hydrogen.

(2) According to this law, “At constant pressure and temperature, the rate of diffusion or effusion of a gas is inversely proportional to the square root of its vapour density.”

Thus, rate of diffusion (r)∝(1/√d) (T and P constant)

For two or more gases at constant pressure and temperature,

(r1/r2) = (√d2/d1)

(3) Graham's law can be modified in a number of ways as,

(i) Since, 2 × vapour density (V.D.) = Molecular weight

where, M1 and M2 are the molecular weights of the two gases.

(ii) Since, rate of diffusion

(a) When equal volume of the two gases diffuse, i.e. V1= V2 then, (r1/r2) = (t2/t1) √(d2/d1)

(b) When volumes of the two gases diffuse in the same time, i.e. t1=t2

then, (r1/r2) = (v1/v2) = (√d2/d1)

(iii) Since, r ∝ p (when p is not constant)

(4) Rate of diffusion and effusion can be determined as,

(i) Rate of diffusion is equal to distance travelled by gas per unit time through a tube of uniform cross-section.

(ii) Number of moles effusing per unit time is also called rate of diffusion.

(iii) Decrease in pressure of a cylinder per unit time is called rate of effusion of gas.

(iv) The volume of gas effused through a given surface per unit time is also called rate of effusion.

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