Find out the value of `K_(c )` for each of the following equilibrium from the value of `K_(p)`: a. `2NOCl(g) hArr 2NO(g)+Cl_(2)(g), K_(p)=1.8xx10^(-2)` at `500 K` b. `CaCO_(3)(s) hArr CaO(s)+CO_(2)(g), K_(p)=167` at `1073 K`

Find out the value of `K_(c )` for each of the following equilibrium f

1.	Find out the value of `K_(c )` for each of the following equilibrium from the value of `K_(p)`: a. `2NOCl(g) hArr 2NO(g)+Cl_(2)(g), K_(p)=1.8xx10^(-2)` at `500 K` b. `CaCO_(3)(s) hArr CaO(s)+CO_(2)(g), K_(p)=167` at `1073 K`
Answer» Correct Answer - (i) `4.33 xx 10^(-4)` (ii) `1.90` The relation between `K_(p)` and `K_(c)` is given as : `K_(p) = K_(c) (RT)^(Deltan)` (a) Here, `Deltan = 3-2 = 1` `R = 0.0831 "bar L mol"^(-1) K^(-1)` `T = 500 K` `K_(p) = 1.8 xx 10^(-2)` Now, `K_(p) = K_(c)(RT)^(Deltan)` `rArr 1.8 xx 10^(-2) = K_(c) (0.0831 xx 500)^(1)` `rArr K_(c) = (1.8 xx 10^(-2))/(0.0831 xx 500)` `= 4.33 xx 10^(-4)` (approximately) (b) Here, `Deltan = 2-1 = 1` `R = 0.0831 "bar L mol"^(-1) K^(-1)` `T = 1073 K` `K_(p) = 167` Now, `K_(p) = K_(c) = (RT)^(Deltan)` `rArr 167 = K_(c) (0.0831 xx 1073)^(Deltan)` `K_(c) = (167)/(0.0831 xx 1073)` `= 1.87` (approximately)

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Find out the value of `K_(c )` for each of the following equilibrium from the value of `K_(p)`: a. `2NOCl(g) hArr 2NO(g)+Cl_(2)(g), K_(p)=1.8xx10^(-2)` at `500 K` b. `CaCO_(3)(s) hArr CaO(s)+CO_(2)(g), K_(p)=167` at `1073 K`

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