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Using Conversion Factors.

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Presentation on theme: "Using Conversion Factors."— Presentation transcript:

1 Using Conversion Factors

2 Just like a dozen represents 12 of something,
such as donuts, iguanas, chemistry assignments, etc., a mole also represents an amount of something. It is 6.02 x of something. A mole can represent 6.02 x donuts, iguanas, toes, etc. In chemistry, it is normally used to represent an amount of atoms, ions, molecules, or formula units. Collectively, atoms, ions, molecules, or formula units are called representative particles. 23

3 Because chemists deal with such
large amounts of particles, it is easier to work with moles of particles

4 amounts of particles can be expressed
not only as moles, but as mass (grams), as volume (liters), and as individual particles (atoms, molecules, ions, formula units, etc.)

5 a measurement of a sample of a molecule, H2O for example,
can be converted from mass to moles to particles to volume and back again to any unit of measurement desired O H

6 using the right conversion factors this is so cool!!

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15 35 g Al

16 35 g Al ? moles Al

17 1 mol 35 g Al x 27 g

18 1 mol 35 g Al x 27 g 35 g Al x 1 mol 27g =

19 1 mol 35 g Al x 27 g 35 mol Al 27 = = 1.3 mols Al

20 ? mass SiO2 0.8 moles SiO2

21 ? mass SiO2 0.8 moles SiO2

22 0.8 moles SiO2 x 60.1 g SiO2 1 mole SiO2 = x g SiO2 = g SiO2

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24 200 g N2O ? molecules N2O

25 200 g N2O ? molecules N2O

26 200 g N2O x x 1 mole N2O 6.02 x 10 molecules N2O 44.0 g N2O 1 mole N2O
23 200 x 6.02 x molecules N2O 44.0 23 = = x molecules N2O 24 this is so cool!!

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