Department of Chemistry

An interactive educational exercise

Applications in Science: Stoichiometry

Stoichiometry is to chemistry what bookkeeping is to money! Stoichiometric calculations allow chemists to keep track of what they had when they started a chemical reaction and what they have at the end of the reaction. For example, the graphic below shows the reaction of some amount of nitrogen (N

PhET, based at the University of Colorado at Boulder, offers over four dozen chemistry-based simulations. Users can search by subject and grade level. Many have been translated into different languages. Chemistry Solutions: Featured Simulations Each issue of Chemistry Solutions, the periodical of. STOICHIOMETRY CALCULATORS and PROBLEM SOLVERS ONLINE. Double check your stoichiometry homework with these problem solvers for chemistry! Find number of moles for a given mass of substance, grams for a given number of moles, moles or grams of product given moles or grams of reactant.

₂) with some amount of hydrogen gas (H₂) to form a new gas, NH₃:You'll learn considerably more about this in class, but we wish to give you a 'taste' of some of the mathematics involved in stoichiometric calculations.

The first calculation is quite simple: the gram molecular weight, or GMW. Each element has a certain mass, usually measured in units of grams. Nitrogen (N₂) has a mass of 14 grams, so the molecular weight is 2 x 14 grams, or 28 grams. Similarly, the mass of the hydrogen molecule is 2 x 1.0 grams, or 2.0 grams, and the mass of the NH₃ is 14.0 grams + (3 x 1.0) or 17 grams.

Probably the most common unit of measurement in chemistry is the 'mole',which might be considered to be an abbreviation for gram MOLEcular weight. One mole of anything is its gram molecular weight. For example, one mole of N₂ is 28 grams. One mole of H₂ Tlcharger franais senuti for mac. is 2.0 grams. One mole of NH₃ is 17 grams. It is critical, if you are to survive in chemistry, that you be able to quickly do mass-to-mole conversions and mole-to-mass conversions:

For example, how many moles are there in 65 grams of H₂O? From a Periodic Table, you learn that hydrogen has a mass of 1 gram, oxygen has a mass of 16 grams, for a molecular mass of (2 x 1.0) + 16 grams = 18 grams. Now you are ready to calculate the number of moles:

Likewise, you should be able to convert moles to grams. If you have 28.6 moles of carbon dioxide, CO₂, calculate the number of moles of CO₂:CO₂ has a mass of 12 + (2 X 16) grams = 44 grams:

One other useful calculation in stoichiometry (there will be more!) is determining the number of atoms in some amount of a chemical. For example, if I have 35 grams of water, how many individual water atoms do I have?

The conversion factor is a number known as 'Avogadro's number' (one of those that some of us older chemists think students should memorize, but we'll let your professors decide that for you!). Avogadro's number is 6.023 x 10²³ atoms per mole, or:

6.023 x 10²³ atoms = 1 mole of any chemicalGiven this, here is the solution to the problem above:

Special Challenge Problem!

Density is a common measurement in chemistry, and refers to the amount of a substance (measured in grams) in a specific volume of a liquid (measure in milliliters, mL, or cubic centimeters, cm³). Mercury has a density of 13.534 g/cm³. If you have 62.5 cm³ of mercury, how many:

• grams of mercury do you have?
• moles of mercury? (mercury has a mass of 200.6 grams/mole)
• atoms of mercury?

Solution:

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Keep in mind that attention needs to be paid to significant figures! Most of these calculations involve multiple steps, and it would be well worth your time to SETUP the problems as we have done here. You should notice that if you do the set-up correctly, the units will cancel out, and you will be left with the unit that you are trying to find. This should give you a 'warm fuzzy' that you have multiplied or divided appropriately.

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