One of the reaction that takes plece in producing steel from iron ore is the reduction of iron(II) oxide by carbon monoxide to give iron metal and `CO_(2)`. `FeO(s)+CO(g) hArr Fe(s)+CO_(2)(g), K_(p)=0.265` atm at `1050 K` What are the equilibrium partial pressure of `CO` and `CO_(2)` at `1050 K` if the partical pressure are: `p_(CO)=1.4 atm` and `p_(CO_(2))=0.80 atm`?

One of the reaction that takes plece in producing steel from iron ore

1.	One of the reaction that takes plece in producing steel from iron ore is the reduction of iron(II) oxide by carbon monoxide to give iron metal and `CO_(2)`. `FeO(s)+CO(g) hArr Fe(s)+CO_(2)(g), K_(p)=0.265` atm at `1050 K` What are the equilibrium partial pressure of `CO` and `CO_(2)` at `1050 K` if the partical pressure are: `p_(CO)=1.4 atm` and `p_(CO_(2))=0.80 atm`?
Answer» `FeO(s)+CO(g)hArr Fe(s)+CO_(2)(g)` `" Initial pressure : " " "1.4 atm " "0.8atm ` `Q_(p)=(Pco_(2))/(Pco) = ((0.8atm))/((1.4 atm)) =0.571` Since `Q_(p) gt K_(p) (0.265),` this means that the reaction will move in the backward direction to attain the equilibrium. Therefore , partial pressure of `CO_(2)` will decrease while that of CO will increase so that the equilibrium may be attained again. Let P atm be teh decrease in the partial pressure of `CO_(2)`. Therefore, the partial pressure of CO will increase by the same magnitude i.e.,p atm. `Pco_(2) =(0.8 -p) " atm " , Pco(g) =(1.4 +p ) " atm "` `"At equilibrium "" "K_(p) =(Pco_(2))/(Pco)= ((0.8-p) atm)/((1.4 +p) atm) = ((0.8 -p))/((1.4+p))` `" or "" "0.265 =((0.8 -p))/((1.4 +p))` `0.371 +0.265p= 0.8 -P or 1.265p = 0.8 -0.371 =0.429` `p=0.429//1.265 =0.339 " atm "` `(Pco)_(eq) = (1.4+0.339)=1.739 " atm "` `(Pco_(2))_(eq)=(0.8-0.339)=0.461` atm

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