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Question #7c4d8

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Answer 1 · 2016-03-05T22:47:31

WARNING! Long Answer! The empirical formula is $C_{2} H_{2} O_{3} K$ $"C"_2"H"_2"O"_3"K"$ . The molecular formula is $C_{4} H_{4} O_{6} K_{2}$ $"C"_4"H"_4"O"_6"K"_2$ .

Explanation:

The equation for the combustion reaction is

${2K}_{2} C_{4} H_{4} O_{6} + {5O}_{2} \to {2K}_{2} O + {8CO}_{2} + {4H}_{2} O$ $"2K"_2"C"_4"H"_4"O"_6 + "5O"_2 → "2K"_2"O" + "8CO"_2 + "4H"_2"O"$

Part 1. Empirical formula.

$(C, H, O, K) + O_{2} \to {CO}_{2} l + l H_{2} O l + l K_{2} O$ $("C, H, O, K") + "O"_2 → "CO"_2color(white)(l) +color(white)(l) "H"_2"O"color(white)(l) +color(white)(l) "K"_2"O"$
$m l 0.5000 g m m m m m 0.389 g l l 0.0796 g l l 0.208 g$ $color(white)(ml)"0.5000 g"color(white)(mmmmm) "0.389 g"color(white)(ll) "0.0796 g"color(white)(ll) "0.208 g"$

We can calculate the masses of $C, H$ $"C, H"$ , and $K$ $"K"$ from the masses of their oxides.

$"Mass of C" = 0.389 color(red)(cancel(color(black)("g CO"_2))) × "12.01 g C"/(44.01 color(red)(cancel(color(black)("g CO"_2)))) = "0.1062 g C"$

$"Mass of H" = 0.0796 color(red)(cancel(color(black)("g H"_2"O"))) × "2.016 g H"/(18.02 color(red)(cancel(color(black)("g H"_2"O")))) = "0.008 91 g H"$

$"Mass of K" = 0.208 color(red)(cancel(color(black)("g K"_2"O"))) × "78.20 g K"/(94.20 color(red)(cancel(color(black)("g K"_2"O")))) = "0.1727 g K"$

$"Mass of O" = "mass of (C, H, O, K) – mass of (C + H + K)" = "0.5000 g – (0.1062 + 0.00891 + 0.1727) g" = "(0.5000 – 0.2878) g" = "0.2122 g O"$

Now, we must convert these masses to moles and find their ratios.

From here on, I like to summarize the calculations in a table.

$"Element"color(white)(X) "Mass/g"color(white)(Xm) "mmol"color(white)(mll) "Ratio" color(white)(mll)"Integers"$
$stackrel(—————————————————-——)(color(white)(ll)"C" color(white)(XXXml)0.1062 color(white)(Xml)"8.843" color(white)(Xll)2.002color(white)(Xmm)2$
$color(white)(ll)"H" color(white)(XXXXl)0.00891 color(white)(mll)"8.839" color(white)(Xll)2.001 color(white)(XXX)2$
$color(white)(ll)"K" color(white)(XXXml)0.1727color(white)(mml)"4.417" color(white)(Xll)1 color(white)(XXXmlll)1$
$color(white)(ll)"O" color(white)(XXXXl)0.2122 color(white)(mll)"13.26" color(white)(Xml)3.002color(white)(XXX)3$

The empirical formula is $"C"_2"H"_2"O"_3"K"$ .

Part 2. Molecular formula.

The relative empirical formula mass of $"C"_2"H"_2"O"_3"K"$ is 113.13.

The relative molecular mass must be an integral multiple of the empirical formula mass.

$"MM" = n × "EFM"$ , or

$n = "MM"/"EFM" = 226.27/113.13 = 1.9992 ≈ 2$

The molecular formula must be twice the empirical formula.

$"MF" = "EF"_2 = ("C"_2"H"_2"O"_3"K")_2 = "C"_4"H"_4"O"_6"K"_2$

Part 3. The chemical equation

The first experiment is a combustion reaction.

The equation for the reaction is

$"2K"_2"C"_4"H"_4"O"_6 + "5O"_2 → "2K"_2"O" + "8CO"_2 + "4H"_2"O"$

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