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College Chemistry : General Topics

Study concepts, example questions & explanations for College Chemistry

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Example Questions

Example Question #1 : Stoichiometric Calculations And Dimensional Analysis

$2H_{2}(g)+ O_{2}(g)\rightarrow 2H_{2}O (g)$

Use the equation shown to determine how many grams of water form when 2.34L of $H_{2}(g)$ reacts completely with $O_{2}$ at STP .

Possible Answers:

6.5g of water

.104g of water

3.55g of water

1.88g of water

Correct answer:

1.88g of water

Explanation:

Use the relations $1mol=22.4L H_{2}$ , molar mass $H_{2}O=18.02\frac{g}{mol}$ , and $2molH_{2}O=2molH_{2}$

$2.34L H_{2} * \frac{1mol H_{2}}{22.4L H_{2}}=.104mol H_{2} * \frac{2mol H_{2}O}{2molH_{2}}=.104molH_{2}O*\frac{18.02gH_{2}O}{1molH_{2}O}=1.88gH_{2}O$

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Example Question #1 : Empirical And Molecular Formulas

What is the correct molecular formula for phosphoric acid?

Possible Answers:

$H_{3}P$

P_2

$H_{2}PO_{3}$

$H_{3}PO_{4}$

$PO_{4}^{3-}$

Correct answer:

$H_{3}PO_{4}$

Explanation:

Phosphoric acid combines a single phosphate ion with three hydrogen ions. The correct molecular formula is $H_{3}PO_{4}$ . $H_{3}P$ is the molecular formula for hydrophosphoric acid, $H_{2}PO_{3}$ is the molecular formula for phosphorous acid, and $PO_{4}^{3- }$ is just a charged phosphate ion, which has biochemical significance with regards to DNA structure and energy molecules like ATP. Phosphorus is not a diatomic atom.

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Example Question #1 : Empirical And Molecular Formulas

A molecule with the empirical formula $\text{C}_5\text{H}_{10}\text{O}$ has a molar mass of $344.52\frac{\textup{g}}{\textup{mol}}$ . Find its molecular formula.

Possible Answers:

$\text{C}_{15}\text{H}_{20}\text{O}_2$

$\text{C}_{20}\text{H}_{40}\text{O}_4$

$\text{C}_{10}\text{H}_{20}\text{O}_2$

$\text{C}_{20}\text{H}_{16}\text{O}_4$

Correct answer:

$\text{C}_{20}\text{H}_{40}\text{O}_4$

Explanation:

Start by finding the molar mass of of $\text{C}_5\text{H}_{10}\text{O}$ by adding up the molar masses of its constituent atoms.

$\text{Molar Mass}=(5\times 12.01)(10\times 1.00)(1 \times 16.00)=86.05\frac{\textup{g}}{\textup{mol}}$

Now, divide the molar mass of the molecule by the molar mass of its empirical formula.

$\frac{344.52}{86.05}=4.00$

In order to find the molecular formula, you will need to multiply the empirical formula by . Thus, the molecular formula is $\text{C}_{20}\text{H}_{40}\text{O}_4$ .

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Example Question #1 : Empirical And Molecular Formulas

What is the empirical formula for a compound that contains $75\:\%$ carbon and $25\:\%$ hydrogen?

Possible Answers:

C_2H_6

$C_{3}H_{3}$

$C_{2}H_{2}$

$CH_{3}$

$CH_{4}$

Correct answer:

$CH_{4}$

Explanation:

We're given the percent composition of the elements carbon and hydrogen in a given compound, and we're asked to determine the empirical formula.

The first thing we have to do is determine the relative molar ratios of each element. In this case, because we are given the percent composition, we can assume that we're starting off with $100\:g$ of the starting material. That way, we can convert each percentage directly into grams.

Following that, we need to use the molar mass of each element in order to convert it from grams to moles.

$75\:g\:C\cdot \frac{1\:mol}{12\:grams}=6.25\: moles\: C$

$25\:g\:H\cdot \frac{1\:mol}{1\:g}=25\:moles\:H$

In other words, what we have found is that in our compound, for every $6.25\: moles$ of carbon, there will also be $25\:moles$ of hydrogen.

$C_{6.25}H_{25}$

But remember, the empirical formula for any given compound tells us the lowest whole number ratio of the compound's constituent elements. Therefore, we'll need to divide each value by the lowest number out of all the values available.

$C_{\frac{6.25}{6.25}}H_{\frac{25}{6.25}}=CH_{4}$

What this tells us is that for every $1\:mole$ of carbon in this compound, there will be $4\:moles$ of hydrogen as well. This is equivalent to the previous ratio, but now it has been reduced to the lowest possible whole numbers.

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College Chemistry : General Topics

Study concepts, example questions & explanations for College Chemistry

All College Chemistry Resources

Example Questions

Example Question #1 : Stoichiometric Calculations And Dimensional Analysis

Example Question #1 : Empirical And Molecular Formulas

Example Question #1 : Empirical And Molecular Formulas

Example Question #1 : Empirical And Molecular Formulas

All College Chemistry Resources

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