Answered

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The following balanced equation shows the formation of sulfur dioxide:

[tex]\[ S + O_2 \rightarrow SO_2 \][/tex]

How many moles of sulfur are needed to produce 15.0 mol of sulfur dioxide?

A. 7.50 mol
B. 10.5 mol
C. 15.0 mol
D. 30.0 mol

Sagot :

GinnyAnswer
To find out how many moles of sulfur ([tex]\(S\)[/tex]) are needed to produce 15.0 moles of sulfur dioxide ([tex]\(SO_2\)[/tex]), let's first look at the balanced chemical equation:

[tex]\[ S + O_2 \rightarrow SO_2 \][/tex]

The balanced equation tells us that:
- 1 mole of sulfur ([tex]\(S\)[/tex]) reacts with 1 mole of oxygen ([tex]\(O_2\)[/tex]) to produce 1 mole of sulfur dioxide ([tex]\(SO_2\)[/tex]).

This 1:1 molar ratio between sulfur ([tex]\(S\)[/tex]) and sulfur dioxide ([tex]\(SO_2\)[/tex]) means that to produce a specific amount of [tex]\(SO_2\)[/tex], we need an equivalent amount of [tex]\(S\)[/tex].

Given that we want to produce 15.0 moles of sulfur dioxide ([tex]\(SO_2\)[/tex]):

Since 1 mole of [tex]\(S\)[/tex] produces 1 mole of [tex]\(SO_2\)[/tex], for 15.0 moles of [tex]\(SO_2\)[/tex]:

We need 15.0 moles of [tex]\(S\)[/tex].

Thus, 15.0 moles of sulfur (S) are required to produce 15.0 moles of sulfur dioxide ([tex]\(SO_2\)[/tex]).

So, the answer is:

[tex]\[ \text{15.0 mol} \][/tex]
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