For a gaseous reaction `2B rarr A`, the equilibrium constant `K_(p)` is ……… to`//`than `K_(c)`.

For a gaseous reaction 2B rarr A , the equilibrium constant Kp is …… than Kc.

For a gaseous reaction 2BtoA ,the equilibrium constant K_(p) is ……to/than K_(c)

Assertion : For a gaseous reaction : 2B to A , the equilibrium constant K_p is less than K_c . Reason: K_p is related to K_c as K_p=K_c(RT)^(Deltan_g)

For a given reversible reaction at a fixed temperature, equilibrium constants K_(p) and K_(c) are related by ………

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 A For the reaction SO_(2)Cl_(2)(g)hArrSO_(2)(g)+Cl_(2)(g),K_(p)gtK_(x) is obtained at :

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 A On the basis of above work-up select the write option