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Ch.3 - Mass Relationships in Chemical Reactions
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All textbooksMcMurry 8th EditionCh.3 - Mass Relationships in Chemical ReactionsProblem 107

Chapter 3, Problem 107

(a) Combustion analysis of 150.0 mg of 1,2,3,benzenetriol, a compound composed of carbon, hydrogen, and oxy-gen, gives 64.3 mg of H2O and 314.2 mg of CO2. What is the empirical formula of 1,2,3,benzenetriol?

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Hey everyone, we're asked to determine the empirical formula of methyl paraben. If it is only composed of carbon, hydrogen and oxygen and were given the amount of grams of each compound in our methyl paraben. So let's go ahead and start off by determining the grams of carbon. We have. We can do this by taking our 1.570 g of carbon dioxide and we can use carbon dioxides molar mass, which is 44.01 g of carbon dioxide to get two moles of carbon dioxide. And we know that one mole of carbon dioxide has one mole of carbon. And looking at our periodic table, One mole of carbon contains 12.01 g of carbon. So when we calculate this out, we end up with 0.4284 g of carbon. Moving on to Hydrogen, we can take our 0.3233 g of water. And using water's molar mass, which is 18.01 g of water Per one mole of water and per one mole of water, We have two moles of hydrogen. And looking at our periodic table, we know that one mole of hydrogen contains one point oh one g of hydrogen. This will get us a total of 0.0359 g of hydrogen. To find our oxygen. We can simply take our 0.678g of our methyl paraben and subtract the values that we just calculated for. So 0.4284 g of carbon plus our 0.0359 g of hydrogen. This will get us to a value of 0.2137 g of oxygen. Now we can go ahead and calculate for the mole of each atom. Starting off with our carbon, we have 0.4284 g of carbon. And we know that we have 12.01 g of carbon per one mole of carbon. This will get us to a value of 0. mole of carbon. Moving on to our hydrogen, we have 0.0359 g of hydrogen and we know that we have 1.01 g per one mole. And when we calculate this out, we end up with 0.0359 mole of hydrogen. And lastly looking at our oxygen, we have 0.2137 g of oxygen. And we know that we have 16 g of oxygen Per one mole of oxygen. This will get us to a value of 0. mole of oxygen. Now, in order to get our empirical formula, we're going to need to divide all of our values by the least amount of moles. In this case it's going to be our mole of oxygen, which is 0.01336. So we end up with about 2.67 of carbon, 2.67 of hydrogen and one of oxygen. Since we have these decimal points, we can't round up or round down so we need to multiply all of our values in order to get a whole number, so if we multiply each one by three, We end up with about eight of carbon eight of hydrogen and three of oxygen. So our empirical formula is going to be C 8 H803, and this is our final answer. So I hope this made sense and let us know if you have any questions.
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Textbook Question
The molecular weight of an organic compound was found by mass spectrometry to be 70.042 11. Is the sample C5H10, C4H6O, or C3H6N2? Exact masses of elements are: 1.007 825 (1H); 12.000 00 (12C); 14.003 074 (14N); 15.994 915 (16O).
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Textbook Question

(a) Combustion analysis of 50.0 mg of benzene, a commonly used solvent composed of carbon and hydrogen, gives 34.6 mg of H2O and 169.2 mg of CO2. What is the empirical formula of benzene?

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b) Given the mass spectrum of benzene, identify the molecular weight and give the molecular formula.

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The molecular weight of ethylene glycol is 62.0689 when calculated using the atomic weights found in a standard periodic table, yet the molecular weight determined experimentally by high-resolution mass spectrometry is 62.0368. Explain the discrepancy.

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Assume that gasoline has the formula C8H18 and has a density of 0.703 g/mL. How many pounds of CO2 are produced from the complete combustion of 1.00 gal of gasoline?
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Compound X contains only carbon, hydrogen, nitrogen, and chlorine. When 1.00 g of X is dissolved in water and allowed to react with excess silver nitrate, AgNO3, all the chlorine in X reacts and 1.95 g of solid AgCl is formed. When 1.00 g of X undergoes complete combustion, 0.900 g of CO2 and 0.735 g of H2O are formed. What is the empirical formula of X?
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