Question #96c21

1 Answer
Stefan V.
Jun 3, 2015

The compound's empirical formula is C_2H_6O_3C2H6O3.

The first thing you need to figure out is how much oxygen your compound contains. Since it only contains carbon, hydrogen, and oxygen, you can use the total amss of the compound and the masses of carbon and hydrogen to figure that out.

m_"total" = m_"carbon" + m_"hydrogen" + m_"oxygen"mtotal=mcarbon+mhydrogen+moxygen

m_"oxygen" = m_"total" - m_"carbon" - m_"hydrogen"moxygen=mtotalmcarbonmhydrogen

m_"oxygen" = 50 - 24.35 - 4.05 = "21.6 g"moxygen=5024.354.05=21.6 g

Now you need to determine how many moles of each element your sample contains. You do that by dividing each element's mass by its molar mass

"For C": (24.35cancel("g"))/(12.01cancel("g")/"mol") = "2.03 moles"

"For H": (4.05cancel("g"))/(1.01cancel("g")/"mol") = "4.01 moles"

"For O": (21.6cancel("g"))/(16.0cancel("g")/"mol") = "1.35 moles"

Next, determine what the mole ratios are between your elements by dividing each of those three numbers by the smallest one

"For C": (2.03cancel("moles"))/(1.35cancel("moles")) = "1.50"

"For H": (4.01cancel("moles"))/(1.35cancel("moles")) = "2.97" ~= 3.0

"For O": (1.35cancel("moles"))/(1.35cancel("moles")) = 1.0

This means that you get

C_1.5H_3O_1

Since you cannot have fractional subscripts in the empirical formula, multiply all the subscripts by 2 to get

C_3H_6O_2 -> your compound's empirical formula.

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