Download - Chem 101 week 5
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CHEM 101Powerpoints
Week Ending 2/17/2012Chapter 3
Part 2
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3.6
g CO2 mol CO2 mol C g C
g H2O mol H2O mol H g H
g of O = g of sample – (g of C + g of H)
Combust 11.5 g ethanolCollect 22.0 g CO2 and 13.5 g H2O
6.0 g C = 0.5 mol C
1.5 g H = 1.5 mol H
4.0 g O = 0.25 mol O
Empirical formula C0.5H1.5O0.25
Divide by smallest subscript (0.25)
Empirical formula C2H6O
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A process in which one or more substances is changed into one or more new substances is a chemical reaction
A chemical equation uses chemical symbols to show what happens during a chemical reaction
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Anatomy of a Chemical Equation
CH4 (g) + 2 O2 (g) CO2 (g) + 2 H2O (g)
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Anatomy of a Chemical Equation
Reactants appear on the left side of the equation.
CH4 (g) + 2 O2 (g) CO2 (g) + 2 H2O (g)
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Anatomy of a Chemical Equation
Products appear on the right side of the equation.
CH4 (g) + 2 O2 (g) CO2 (g) + 2 H2O (g)
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Anatomy of a Chemical Equation
The states of the reactants and products are written in parentheses to the right of each compound.
CH4 (g) + 2 O2 (g) CO2 (g) + 2 H2O (g)
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Anatomy of a Chemical Equation
Coefficients are inserted to balance the equation.
CH4 (g) + 2 O2 (g) CO2 (g) + 2 H2O (g)
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Subscripts and Coefficients Give Different Information
• Subscripts tell the number of atoms of each element in a molecule
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Subscripts and Coefficients Give Different Information
• Subscripts tell the number of atoms of each element in a molecule
• Coefficients tell the number of molecules
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3.7
3 ways of representing the reaction of H2 with O2 to form H2O
reactants products
Summary of a Chemical Equation
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How to “Read” Chemical Equations
2 Mg + O2 2 MgO
2 atoms Mg + 1 molecule O2 makes 2 formula units MgO
2 moles Mg + 1 mole O2 makes 2 moles MgO
48.6 grams Mg + 32.0 grams O2 makes 80.6 g MgO
IS NOT2 grams Mg + 1 gram O2 makes 2 g MgO
3.7
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Balancing Chemical Equations
1. Write the correct formula(s) for the reactants on the left side and the correct formula(s) for the product(s) on the right side of the equation.
Ethane reacts with oxygen to form carbon dioxide and water
C2H6 + O2 CO2 + H2O
2. Change the numbers in front of the formulas (coefficients) to make the number of atoms of each element the same on both sides of the equation. Do not change the subscripts.
3.7
2C2H6 NOT C4H12
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Balancing Chemical Equations
3. Start by balancing those elements that appear in only one reactant and one product. C2H6 + O2 CO2 + H2O
3.7
start with C or H but not O
2 carbonon left
1 carbonon right multiply CO2 by 2
C2H6 + O2 2CO2 + H2O
6 hydrogenon left
2 hydrogenon right multiply H2O by 3
C2H6 + O2 2CO2 + 3H2O
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Balancing Chemical Equations
4. Balance those elements that appear in two or more reactants or products.
3.7
2 oxygenon left
4 oxygen(2x2)
C2H6 + O2 2CO2 + 3H2O
+ 3 oxygen(3x1)
multiply O2 by 72
= 7 oxygenon right
C2H6 + O2 2CO2 + 3H2O72
remove fractionmultiply both sides by 2
2C2H6 + 7O2 4CO2 + 6H2O
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Balancing Chemical Equations
5. Check to make sure that you have the same number of each type of atom on both sides of the equation.
3.7
2C2H6 + 7O2 4CO2 + 6H2O
Reactants Products
4 C
12 H
14 O
4 C
12 H
14 O
4 C (2 x 2) 4 C
12 H (2 x 6) 12 H (6 x 2)
14 O (7 x 2) 14 O (4 x 2 + 6)
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© 2009, Prentice-Hall, Inc.
Stoichiometric Calculations
The coefficients in the balanced equation give the ratio of moles of reactants and products.
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© 2009, Prentice-Hall, Inc.
Stoichiometric Calculations
Starting with the mass of Substance A you can use the ratio of the coefficients of A and B to calculate the mass of Substance B formed (if it’s a product) or used (if it’s a reactant).
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1. Write balanced chemical equation
2. Convert quantities of known substances into moles
3. Use coefficients in balanced equation to calculate the number of moles of the sought quantity
4. Convert moles of sought quantity into desired units
Amounts of Reactants and Products
3.8
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Methanol burns in air according to the equation2CH3OH + 3O2 2CO2 + 4H2O
If 209 g of methanol are used up in the combustion, what mass of water is produced?
grams CH3OH moles CH3OH moles H2O grams H2O
molar massCH3OH
coefficientschemical equation
molar massH2O
209 g CH3OH1 mol CH3OH32.0 g CH3OH
x4 mol H2O
2 mol CH3OHx
18.0 g H2O1 mol H2O
x =
235 g H2O
3.8
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Limiting Reactants
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How Many Cookies Can I Make?
• You can make cookies until you run out of one of the ingredients
• Once this family runs out of sugar, they will stop making cookies……
• ………..at least any cookies you would want to eat!
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How Many Cookies Can I Make?
• In this example the sugar would be the limiting reactant, because it will limit the amount of cookies you can make
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Limiting Reactants
The limiting reactant is the reactant present in the smallest stoichiometric amount
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Limiting Reactants
• The limiting reactant is the reactant present in the smallest stoichiometric amount– In other words, it’s the reactant you’ll run out of first (in
this case, the H2)
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Limiting Reactants
In the example below, the O2 would be the excess reagent
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Do You Understand Limiting Reagents?
In one process, 124 g of Al are reacted with 601 g of Fe2O3
2Al + Fe2O3 Al2O3 + 2Fe
Calculate the mass of Al2O3 formed.
g Al mol Al mol Fe2O3 needed g Fe2O3 needed
OR
g Fe2O3 mol Fe2O3 mol Al needed g Al needed
124 g Al1 mol Al
27.0 g Alx
1 mol Fe2O3
2 mol Alx
160. g Fe2O3
1 mol Fe2O3
x = 367 g Fe2O3
Start with 124 g Al need 367 g Fe2O3
Have more Fe2O3 (601 g) so Al is limiting reagent3.9
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Use limiting reagent (Al) to calculate amount of product thatcan be formed.
g Al mol Al mol Al2O3 g Al2O3
124 g Al1 mol Al
27.0 g Alx
1 mol Al2O3
2 mol Alx
102. g Al2O3
1 mol Al2O3
x = 234 g Al2O3
2Al + Fe2O3 Al2O3 + 2Fe
3.9
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Theoretical Yield
• The theoretical yield is the amount of product that can be made– In other words it’s the amount of product possible
as calculated through the stoichiometry problem
• This is different from the actual yield, the amount one actually produces and measures
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Percent Yield
A comparison of the amount actually obtained to the amount it was possible to make
Actual YieldTheoretical YieldPercent Yield = x 100