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The following balanced equation shows the formation of ethane [tex]\(\left( C_2H_6 \right)\)[/tex].

[tex]\[ C_2H_2 + 2H_2 \rightarrow C_2H_6 \][/tex]

How many moles of hydrogen are needed to produce 13.78 mol of ethane?

A. 3.445 mol
B. 6.890 mol
C. 27.56 mol
D. 55.12 mol

Sagot :

GinnyAnsweridn
To determine how many moles of hydrogen ([tex]\(H_2\)[/tex]) are needed to produce 13.78 moles of ethane ([tex]\(C_2H_6\)[/tex]), refer to the balanced chemical equation:

[tex]\[C_2H_2 + 2 H_2 \rightarrow C_2H_6\][/tex]

The balanced equation indicates that 1 mole of [tex]\(C_2H_6\)[/tex] is produced from 2 moles of [tex]\(H_2\)[/tex]. This establishes a reaction ratio of:

[tex]\[1 \text{ mole of } C_2H_6 : 2 \text{ moles of } H_2\][/tex]

This means you need 2 moles of hydrogen gas for every mole of ethane produced.

To find out how much [tex]\(H_2\)[/tex] is needed for 13.78 moles of [tex]\(C_2H_6\)[/tex]:

1. Identify the ratio from the balanced equation: [tex]\(2 \, \text{moles of } H_2 \text{ per } 1 \, \text{mole of } C_2H_6\)[/tex].
2. Multiply the given moles of [tex]\(C_2H_6\)[/tex] by the ratio to find the moles of [tex]\(H_2\)[/tex].

[tex]\[ \text{Moles of } H_2 = 13.78 \, \text{moles of } C_2H_6 \times 2 \, \frac{\text{moles of } H_2}{\text{mole of } C_2H_6} \][/tex]

[tex]\[ \text{Moles of } H_2 = 13.78 \times 2 = 27.56 \, \text{moles of } H_2 \][/tex]

Therefore, 27.56 moles of hydrogen are needed to produce 13.78 moles of ethane.

The correct answer is:

[tex]\[ \boxed{27.56} \][/tex]
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