For a gaseous reaction `aA(g)+bB(g)hArrcC(g)+dD(g)` equilibrium constants `K_(c),K_(p)` and `K_(x)` are represented by the following reation `K_(c)=([C]^(c)[D]^(d))/([A]^(a)[B]^(b)),K_(p)=(Pc^(c).P_(D)^(d))/P_(A)^(a)` and `Kx=(x_(C)^(c).x_(D)^(d))/(x_(A)^(a).x_(B)^(b)` where `[A]` represents molar concentrationof `A,p_(A)` represents partial pressure of A and P represents total pressure, `x_(A)` represents mole fraction of For the following equilibrium relation betwen `K_(c)` and `K_(c)` (in terms of mole fraction) is `PCl_(3)(g)+Cl_(2)(g)hArrPCl_(5)(g)`
A
`K_(c)=K_(x)(RT)^(-1)`
B
`K_(c)=K_(x)(RT)`
C
`K_(c)=K_(x)((RT)/P)`
D
`K_(c)=K_(x)((P)/(RT))`
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