Heating 2.40 g of the oxide of metal X (molar mass of X = 55.9 g/mol) in carbon monoxide (CO) yields the pure metal and carbon dioxide. The mass of the metal product is 1.68 g. From the data given, show that the simplest formula of the oxide is X2O3 and write a balanced equation for the reaction.

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Tringa0 Tringa0 · Answer 1 · 2019-07-08T08:45:50+02:00

Answer:The molecular formula of the oxide of metal be [tex]X_2O_3[/tex]. The balanced equation for the reaction is given by:

[tex]X_2O_3+3CO\rightarrow 3CO_2+2X[/tex]

Explanation:

Let the molecular formula of the oxide of metal be [tex]X_2O_y[/tex]

[tex]X_2O_y+yCO\rightarrrow yCO_2+2X[/tex]

Mass of metal product = 1.68 g

Moles of metal X =[tex]\frac{1.68 g}{55.9 g/mol}=0.03005 mol[/tex]

1 mol of metal oxide produces 2 moles of metal X.

Then 0.03005 moles of metal X will be produced by:

[tex]\frac{1}{2}\times 0.03005 mol=0.01502 mol[/tex] of metal oxide

Mass of 0.01502 mol of metal oxide = 2.40 g (given)

[tex]0.01502 mol\times (2\times 55.9 g/mol+y\times 16 g/mol)=2.40 g[/tex]

y = 2.999 ≈ 3

The molecular formula of the oxide of metal be [tex]X_2O_3[/tex]. The balanced equation for the reaction is given by:

[tex]X_2O_3+3CO\rightarrow 3CO_2+2X[/tex]