Stoichiometry
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Transcript of Stoichiometry
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Stoichiometry
Joe’s favorite word!
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Our toolbox
We’ve now filled our toolbox with the basic tools required to discuss real chemistry:
1. Nomenclature
2. Conversion factors - Units! Units! Units
3. Significant figures/accuracy
4. Atomic Theory
5. Molecular Geometry
6. Moles! Moles! Moles!
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Real Chemistry
Real Chemistry is all about doing chemical reactions.
Chemistry is about making or breaking bonds in order to rearrange atoms and make new compounds.
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Real Chemistry
Real Chemistry obeys Joe’s 2 Rules of Chemistry:
1. UNITS! UNITS! UNITS!
2. MOLES! MOLES! MOLES!
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Chemical Equations
A chemical equation is a recipe for making a molecule.
This can be written in “shopping list” format:
H2 + O2 → H2O
But this doesn’t help with specific amounts
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Balanced Chemical Equations
Chemical equations are most useful when balanced – meaning that all atoms are accounted for, there are the same number of each atom on both sides of the reaction arrow.
2 H2 + O2 → 2 H2O
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Balancing Chemical Equations
There’s no trick to balancing equations, but there are a few helpful hints:
1. Atoms that appear by themselves, on either side, should be done last.
2. Atoms that appear in one place on either side should be done first.
3. Practice makes perfect.
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Practice Problems
#11 Balance the following equations:
a) CO + O2 → CO2
b) N2O5 + H2O → HNO3
c) CH4 + Cl2 → CCl4 + HCl
d) Al4C3 + H2O → Al(OH)3 + CH4
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CO + O2 → CO2
Which atom should we do first?C – O occurs by itself on the left, so we can always
balance it using the pure O2
CO + O2 → CO2 (Carbon is balanced)
CO + ½ O2 → CO2 (balances O, but we like integers)
2CO + O2 → 2 CO2 CO + ½ O2 = CO2
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N2O5 + H2O → HNO3
Which first?
N or H – shouldn’t matter
N2O5 + H2O → 2HNO3 (I did N first)
N2O5 + H2O → 2 HNO3 (H second)
N2O5 + H2O → 2 HNO3 (turns out O is already done!)
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CH4 + Cl2 → CCl4 + HCl
Which first?
Either C or H. Cl should definitely be last
CH4 + Cl2 → CCl4 + 4 HCl (H first, C done already)
CH4 + 4 Cl2 → CCl4 + 4 HCl
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Al4C3 + H2O → Al(OH)3 + CH4
Al4C3 + H2O → 4 Al(OH)3 + CH4
Al4C3 + H2O → 4 Al(OH)3 + 3 CH4
Al4C3 + 12 H2O → 4 Al(OH)3 + 3 CH4
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Balanced Equations
Once I have a balanced equation, I have a very specific recipe:
2 H2 + O2 → 2 H2O
This balanced equation indicates the exact relative amounts of all the chemical species. The numbers are called stoichiometric coefficients.
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2 H2 + O2 → 2 H2O
2 moles H2:1 mole O2:2 moles H2O
This is essentially 6 different ratios:
2 mol H2 1 mol O2 2 mol H2O
1 mol O2 2 mol H2O 2 mol H2
1 mol O2 2 mol H2O 2 mol H2
2 mol H2 1 mol O2 2 mol H2O
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Stoichiometric Ratios
These ratios are the relative stoichiometry and are, therefore, called stoichiometric ratios.
Like any other ratios, these are conversion factors – in this case converting one chemical substance into another.
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2 H2 + O2 → 2 H2O
If I have 2.5 moles of hydrogen – how much oxygen do I need to completely react the hydrogen?
2.5 mol H2* 1 mol O2 = 1.25 mol O2
2 mol H2
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There’s 106 moles of O2 in the room…
2 H2 + O2 = 2 H2O
How many moles of H2 are in the room?
A. 212
B. 53
C. All of the above
D. None of the above
E. 10617
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2 H2 + O2 → 2 H2O
If I reacted 2.5 moles of hydrogen – how much water did I create?
2.5 mol H2* 2 mol H2O = 2.5 mol H2O
2 mol H2
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2 H2+ O2 = 2H2O
I have 1.6 mol of hydrogen. How much water can I make?
A. 1.6 mol H2O
B. 0.8 mol etc.
C. 3.2 mol
D. 4.8 mol
E. None of the above
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Life as Conversion Factors
So, once again we see the power of conversion factors.
In this case, the stoichiometry is the conversion factor between different chemical species!
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Moles is better, Grams is easier
…to measure!
The reactions are all written in terms of molecules (or moles) interacting.
It is easier to measure grams in the laboratory!
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A more typical problem
2 H2 + O2 → 2 H2O
What mass of oxygen is required to completely react with 5.0 g H2?
Where do we start? What do we do?
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A more typical problem
2 H2 + O2 → 2 H2O
What mass of oxygen is required to completely react with 5.0 g H2?
5.0 g H2 * 1 mol H2 * 1 mol O2 * 32.0 g O2 = 39.6 g O2
2.016 g H2 2 mol H2 1 mol O2
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Joe’s 1st Dance of Chemistry
GRAMS TO MOLES
MOLES TO MOLES
MOLES TO GRAMS
This is the most common calculation in all of chemistry!
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A more typical problem
2 H2 + O2 → 2 H2O
What masses of oxygen and hydrogen are required to create 5.0 g H2O?
Where do we start? What do we do?
Grams to moles, moles to moles, moles to grams
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A more typical problem
2 H2 + O2 → 2 H2O
What masses of oxygen and hydrogen are required to create 5.0 g H2O?
5.0 g H2O * 1 mol H2O * 1 mol O2 * 32.0 g O2 = 4.44 g O2
18.016 g H2O 2 mol H2O 1 mol O2
5.0 g H2O * 1 mol H2O * 2 mol H2 * 2.016 g H2 = 0.56 g H2
18.016 g H2O 2 mol H2O 1 mol H2
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A more typical problem
2 H2 + O2 → 2 H2O
What masses of oxygen and hydrogen are required to create 5.0 g H2O?
4.44 g O2
0.56 g H2
Both are required! Doesn’t matter how much oxygen you have if you don’t have any hydrogen!
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Problems
Ammonia can be made by the gas-phase reaction of nitrogen and hydrogen:
H2 + N2 → NH3
15.32 g of hydrogen are mixed with an excess of nitrogen. How much ammonia can be manufactured?
A.129 gB.173 gC. 153 gD. 86 gE.15 g
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H2 + N2 → NH3
1st you need to balance the equation:
3 H2 + N2 → 2 NH3
15.32 g H2 * 1 mol * 2 mol NH3 * 17 g NH3 = 86 g NH3
2.016 g H2 3 mol H2 1 mol NH3
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