At a certain temperature , the following reactions have the equilibrium constants as shown below: S(s)+O_(2)(g)hArrSO_(2)(g),K_(c)=5xx10^(52) 2S(s)+3O_(2)(g)hArr2SO_(3)(g),K_(c)=5xx10^(29) what is the equilibrium constant K_(c) for the reaction at tahea same temperature? 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g)
For the following reactions , equilibrium constants are given : S(s)+O_2(g) hArr SO_2(g) , K_1=10^52 2S(s) +3O_2(g) hArr 2SO_3(g) , K_2=10^129 The equilibrium constant for the reaction , 2SO_2(g) +O_2(g) hArr 2SO_3(g) is :
For the following reactions, equilibrium constants are given: S(s ) + O _ 2 (g) SO _ 2 (g ) , K _ 1 = 10 ^( 52 ) , 2 S ( s ) + 3O _ 2 ( g ) 2 SO _ 3 (g) , K _ 2 = 10 ^( 129) The equilibrium constant for the reaction, 2SO _ 2 (g ) + O _ 2 ( g ) 2 SO _ 3 (g) is
Given equilibrium constants for the following reaction at 1200^(@)C C(g)+CO_(2)(g)hArr 2CO(g), K_(p_(1))=1.47xx10^(3) CO(g)+1//2O_(2)(g)hArr COCl_(2)(g), K_(P_(2))=2xx10^(6) Calculate K_(P) for the reaction : C(g)+CO_(2)+O_(2)(g)hArr 2COCl_(2)(g)
The equilibrium constant for the following reactions at 1400 K are given. 2H_(2)O(g)hArr2H_(2)(g) + O_(2)(g) , K_(1)=2.1×x10^(-13) 2CO_(2)(g) hArr2CO(g)+O_(2)(g),K_(2) = 1.4 x× 10^(-12) Then, the equilibrium constant K for the reaction H_(2)(g) + CO_(2)(g)hArrCO(g) + H_(2)O(g) is
The following equilibrium constants were determined at 1120 K : 2CO(g)hArrC(s)+CO_(2)(g), , K_(p1)=10^(-114)atm^(-1) CO(g)+Cl_(2)(g)hArrCOCl_(2)(g), , K_(p2)=6xx10^(-3)atm^(-1) What is the equilibrium constant K_(c) for the foollowing reaction at 1120 K: C(s)+CO_(2)(g)+2Cl_(2)(g)hArr2COCl_(2)(g)
Equilibrium constants for the following reaction 1200 K are given: 2H_2O (g) hArr 2H_2(g) +O_2(g) , " " K_1=6.4xx10^(-8) 2CO_2(g) hArr 2CO(g) +O_2(g) , " " K_2=1.6xx10^(-6) The equilibrium constant for the reaction H_2(g) + CO_2(g) hArr CO(g) +H_2O(g) at 1200 K will be
