I Review | Constants | Periodic Table AlTougi herE iS iNiially a gıeaten number of moles of CO, it limits the amount of product that can be formed when you consider the stoichiometric relationships between each reactant and product. Mining companies use this reaction to obtain iron from iron ore: Fe,O3 (s) + 3CO(g) → 2Fe(s) + 3CO2(g) The reaction of 182 g of Fe2O3 with 85.8 g of CO produces 70.6 g of Fe. Part B Calculate the theoretical yield of solid iron. Express the mass in grams to three significant figures. ΑΣΦ theoretical vield =

Mining companies use this reaction to obtain iron from iron ore:

Fe2O3(s)+3CO(g) → 2Fe(s)+3CO2(g)Fe2O3(s)+3CO(g) → 2Fe(s)+3CO2(g)

The reaction of 182 gg of Fe2O3Fe2O3 with 85.8 gg of COCO produces 70.6 gg of FeFe.

 

Calculate the theoretical yield of solid iron.

Express the mass in grams to three significant figures. 

 

SEE PIC.

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9 of 12 I Review | Constants | Periodic Table AlNough iere IS INIially a grealer number of moles of CO, it limits the amount of product that can be formed when you consider the stoichiometric relationships between each reactant and product. Mining companies use this reaction to obtain iron from iron ore: Fe,O3 (s) + 3CO(g) → 2Fe(s) + 3CO2(g) The reaction of 182 g of Fe2O3 with 85.8 g of CO produces 70.6 g of Fe. Part B Calculate the theoretical yield of solid iron. Express the mass in grams to three significant figures. AZ theoretical yield =