Chemistry, asked by ashutosh3254, 1 year ago

Derive relationship between kp and kc

Answers

Answered by Shinobi
5

Hey Mate ,  Here is your answer  If the equilibrium involves gaseous species, then the concentrations may be expressed in terms of partial pressures of the gaseous substance. The equilibrium constant will be Kp. while The equilibrium constant for the reaction expressed in terms of the concentration, it will be Kc.  Hence relation between Kp and Kc is given as: Kp = Kc (RT) ∆n  Where ∆n = number of moles of gaseous products – number of moles of gaseous reactants in the balanced chemical reaction.  Hope this will help

Answered by dhruvrkrish
8

Kc and Kp are the equilibrium constants of gaseous mixtures. However, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system. The equilibrium constants do not include the concentrations of single components such as liquids and solid, and they do not have any units.

Derive the relationship between Kp and Kc

Relationship between Kp and Kc

Consider the following reversible reaction:

aA + bB ⇌ cC + dD

The equilibrium constant for the reaction expressed in terms of the concentration (mol / litre) may be expressed as:

K c = [C] c [D] d / [A] a [B] b

If the equilibrium involves gaseous species, then the concentrations may be expressed in terms of partial pressures of the gaseous substance. The equilibrium constant in terms of partial pressures may be given as:

K p = pcC pdD / paA pbB

Where pA, pB, pC and pD represents the partial pressures of the substance A, B, C and D respectively. If gases are assumed to be ideal, then according to ideal gas equation:

pV = nRT

p = nRT / V

Where p ———-> pressure in Pa

n ——————–> amount of gas in mol

V ——————–> Volume in m3

T ———————> temperature in Kelvin

n/V = concentration, C

or

p = CRT or [gas] RT

If C is in mol dm-3 and p is in bar, then R = 0.0831 bar dm3 mol-1 K-1

Therefore, at constant temperature, pressure of the gas P is proportional to its concentration C, i.e.

Let us suppose a general reaction:

aA + bB↔ cC + dD

The equilibrium constant will be given as:

Kp = (pC) c (pD) d /

(pA) a (pB) b ……. (1)

Now, p = CRT

Hence,

pA = [A] RT

where [A] is the molar concentration of A

Similarly,

pB = [B] RT

pC = [C] RT

pD = [D] RT

where [B], [C] and [D] are the molar concentration of B, C and D respectively

Substituting these values in expression for Kp i.e. in equation (1)

Kp = [([C] RT) c ([D] RT) d]/[([A] RT) a ([B] RT) b]

= [C] c [D] d (RT) c+d/[A] a [B] b (RT) a+b

= [C] c [D] d (RT) c+d – a+b/[A] a [B] b

= Kc (RT) c+d – a+b

= Kc (RT) ∆n

Where ∆n = (c + d) – (a + b) i.e. number of moles of gaseous products – number of moles of gaseous reactants in the balanced chemical reaction.

Hence relation between Kp and Kc is given as:

Kp = Kc (RT) ∆n

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