Question #2e55e

1 Answer
Stefan V.
Jul 20, 2017

1818

Explanation:

I think that by standard form the problem means without any fractional coefficients, so let's start by balancing the equation with fractional coefficients.

"C"_ 8"H"_ (18(g)) + "O"_ (2(g)) -> "CO"_ (2(g)) + "H"_ 2"O"_ ((g))C8H18(g)+O2(g)CO2(g)+H2O(g)

It's always a good idea to start with the carbon atoms, so multiply the carbon dioxide molecule by 88 in order to get 88 carbon atoms on the reactants' side--notice that you have 88 carbon atoms on the products' side!

"C"_ 8"H"_ (18(g)) + "O"_ (2(g)) -> 8"CO"_ (2(g)) + "H"_ 2"O"_ ((g))C8H18(g)+O2(g)8CO2(g)+H2O(g)

Next, balance the hydrogen atoms. Since you have 1818 on the reactants' side and only 99 on the products' side, multiply the water molecule by 99 in order to balance the hydrogen atoms out.

"C"_ 8"H"_ (18(g)) + "O"_ (2(g)) -> 8"CO"_ (2(g)) + 9"H"_ 2"O"_ ((g))C8H18(g)+O2(g)8CO2(g)+9H2O(g)

Now focus on the oxygen atoms. You only have 22 on the reactants' side and a total of

overbrace(8 xx "2 O atoms")^(color(blue)("from 8 molecules of CO"_2)) + overbrace(9 xx "1 O atom")^(color(blue)("from 9 molecules of H"_2"O")) = "25 O atoms"

Notice that since you're dealing with an oxygen molecule on the reactants' side, which is comprised of 2 oxygen atoms, you can multiply it by 25/2 in order to get 25 oxygen atoms.

This will get you

"C"_ 8"H"_ (18(g)) + 25/2"O"_ (2(g)) -> 8"CO"_ (2(g)) + 9"H"_ 2"O"_ ((g))

Finally, to get this balanced chemical equation to standard form, multiply all the chemical species by 2 -> this will get rid of the fractional coefficient that's currently in front of the oxygen molecule.

2"C"_ 8"H"_ (18(g)) + (2 * 25/2)"O"_ (2(g)) -> (2 * 8)"CO"_ (2(g)) + (2 * 9)"H"_ 2"O"_ ((g))

You will end up with

2"C"_ 8"H"_ (18(g)) + 25"O"_ (2(g)) -> 16"CO"_ (2(g)) + 18"H"_ 2"O"_ ((g))

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