dr. s. m. condren chapter 3 calculations with chemical formulas and equations
TRANSCRIPT
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Dr. S. M. Condren
Chapter 3
Calculations with
Chemical Formulas
and Equations
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Dr. S. M. Condren
Molar Mass
Sum
atomic masses
represented by formula
atomic masses => gaw
molar mass => MM
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Dr. S. M. Condren
One Mole of each Substance
Clockwise from top left:1-Octanol, C8H17OH;Mercury(II) iodide, HgI2;Methanol, CH3OH; andSulfur, S8.
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Dr. S. M. Condren
ExampleWhat is the molar mass of ethanol, C2H5O1H1?
MM = 2(gaw)C + (5 + 1)(gaw)H + 1(gaw)O
= 2(12.011)C + 6(1.00794)H + 1(15.9994)O
= 24.022 + 6.04764 + 15.9994
= 46.069 g/molSignificant figures rule for multiplication
Significant figures rule for addition
Sequence – multiplication then addition,apply significant figure rules in proper sequence
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Dr. S. M. Condren
The Mole
• a unit of measurement, quantity of matter present
• Avogadro’s Number6.022 x 1023 particles
• Latin for “pile”
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Dr. S. M. Condren
Example How many moles of carbon dioxide molecules are there in 10.00g of carbon dioxide? CO2
MM = 1(gaw)C + 2(gaw)O = 44.01 g/mol
#mol CO2 = (10.00g)(1 mol/44.01g)
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Dr. S. M. Condren
Example How many moles of carbon dioxide molecules are there in 10.00g of carbon dioxide? CO2
MM = 1(gaw)C + 2(gaw)O = 44.01 g/mol
#mol CO2 = (10.00g)(1 mol/44.01g)
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Dr. S. M. Condren
Example How many moles of carbon dioxide molecules are there in 10.00g of carbon dioxide? CO2
MM = 1(gaw)C + 2(gaw)O = 44.01 g/mol
#mol CO2 = (10.00)(1 mol/44.01)
= 0.2272 mol
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Dr. S. M. Condren
Combustion Analysis
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Dr. S. M. Condren
Percentage Composition
description of a compound based on the relative amounts of each element in the compound
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Dr. S. M. Condren
EXAMPLE: What is the percent composition of chloroform, CHCl3, a substance once used as an anesthetic?
MM = 1(gaw)C + 1(gaw)H + 3(gaw)Cl
= (12.011 + 1.00797 + 3*35.453)amu
= 119.377amu
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Dr. S. M. Condren
EXAMPLE: What is the percent composition of chloroform, CHCl3, a substance once used as an anesthetic?
MM = 1(gaw)C + 1(gaw)H + 3(gaw)Cl
= (12.011 + 1.00797 + 3*35.453)amu
= 119.377amu
1(gaw)%C = ------------ X 100
MM 1(12.011)
%C = -------------- X 100 = 10.061% C 119.377
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Dr. S. M. Condren
EXAMPLE: What is the percent composition of chloroform, CHCl3, a substance once used as an anesthetic?
MM = 1(gaw)C + 1(gaw)H + 3(gaw)Cl
= (12.011 + 1.00797 + 3*35.453)amu
= 119.377amu
1(1.00797)%H = ---------------- X 100 = 0.844359% H
119.377
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Dr. S. M. Condren
EXAMPLE: What is the percent composition of chloroform, CHCl3, a substance once used as an anesthetic?
MM = 1(gaw)C + 1(gaw)H + 3(gaw)Cl
= (12.011 + 1.00797 + 3*35.453)amu
= 119.377amu
3(35.453)%Cl = -------------- X 100 = 89.095% Cl
119.377
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Dr. S. M. Condren
EXAMPLE: What is the percent composition of chloroform, CHCl3, a substance once used as an anesthetic?MM = 1(gaw)C + 1(gaw)H + 3(gaw)Cl
= 119.377amu
%C = 10.061% C
%H = 0.844359% H
%Cl = 89.095% Cl
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Dr. S. M. Condren
Simplest (Empirical) Formula
• formula describing a substance based on the smallest set of subscripts
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Dr. S. M. Condren
Acetylene, C2H2, and benzene, C6H6, have the same empirical formula. Is the correct empirical formula:
C2H2
CH
C6H6
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Dr. S. M. Condren
EXAMPLE: A white compound is formed when phosphorus burns in air. Analysis shows that the compound is composed of 43.7% P and 56.3% O by mass. What is the empirical formula of the compound?
Element
P
O
%
43.7 56.3
Relative Number of Atoms(%/gaw)
43.7/30.9756.3/15.9994
= 1.41= 3.52
Divide by Smaller1.41/1.41 = 1.003.52/1.41 = 2.50
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Dr. S. M. Condren
EXAMPLE: A white compound is formed when phosphorus burns in air. Analysis shows that the compound is composed of 43.7% P and 56.3% O by mass. What is the empirical formula of the compound?
Relative Number of Atoms Multiply % (%/gaw) Divide by Smaller by Integer P 43.7 43.7/30.97 = 1.41 1.41/1.41 = 1.00 2*1.00 => 2
O 56.3 56.3/15.9994 = 3.52 3.52/1.41 = 2.50 2*2.50 => 5
Empirical Formula => P2O5
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Dr. S. M. Condren
EXAMPLE: A sample of a brown-colored gas that is a major air pollutant is found to contain 2.34 g of N and 5.34 g of O. What is the empirical formula of the compound?
2.34 %N = ----------------- X 100 = 30.5% N 2.34 + 5.34
5.34%O = ----------------- X 100 = 69.5% O 2.34 + 5.34
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Dr. S. M. Condren
EXAMPLE: A sample of a brown-colored gas that is a major air pollutant is found to contain 2.34 g of N and 5.34 g of O. What is the empirical formula of the compound?%N = 30.5% N %O = 69.5% O
Element N O
%30.5 69.5
Relative # Atoms (%/gaw)30.5/14.0067 = 2.1869.5/15.9994 = 4.34
Divide by Smaller 2.18/2.18 = 1.00 4.34/2.18 = 1.99
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Dr. S. M. Condren
EXAMPLE: A sample of a brown-colored gas that is a major air pollutant is found to contain 2.34 g of N and 5.34 g of O. What is the empirical formula of the compound?%N = 30.5% N %O = 69.5% O
Element N O
%30.5 69.5
Relative # Atoms (%/gaw)30.5/14.0067 = 2.1869.5/15.9994 = 4.34
Divide by Smaller 2.18/2.18 = 1.00 4.34/2.18 = 1.99
Multiplyby Integer1*1.00=>11*1.99=>2
Empirical Formula => NO2
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Dr. S. M. Condren
Molecular Formula
• the exact proportions of the elements that are formed in a molecule
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Dr. S. M. Condren
Molecular Formula from Simplest Formula
empirical formula => EF
molecular formula => MF
MF = X * EF
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Dr. S. M. Condren
Molecular Formula from Simplest Formula
formula mass => FM
sum of the atomic weights represented by the formula
molar mass = MM = X * FM
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Dr. S. M. Condren
Molecular Formula from Simplest Formula
first, knowing MM and FM
X = MM/FM
then
MF = X * EF
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Dr. S. M. Condren
EXAMPLE: A colorless liquid used in rocket engines, whose empirical formula is NO2, has a molar mass of 92.0. What is the molecular formula?
FM = 1(gaw)N + 2(gaw)O = 46.0 MM 92.0X = ------- = -------- = 2 FM 46.0
thus MF = 2 * EF
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Dr. S. M. Condren
What is the correct molecular formula for this colorless liquid rocket fuel?
2NO2
NO2
N2O4
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Dr. S. M. Condren
Stoichiometry
stoi·chi·om·e·try noun1. Calculation of the quantities of
reactants and products in a chemical reaction.
2. The quantitative relationship between reactants and products in a chemical reaction.
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Dr. S. M. Condren
The Mole and Chemical Reactions:The Macro-Nano Connection
2 H2 + O2 -----> 2 H2O 2 H2 molecules 1 O2 molecule 2 H2O molecules
2 H2 moles molecules 1 O2 mole molecules 2 H2O moles molecules
4 g H2 32 g O2 36 g H2O
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Dr. S. M. Condren
EXAMPLE
How much H2O, in moles results from burning an excess of H2 in 3.3 moles of O2?
H2 + O2 -----> H2O
2 H2 + O2 -----> 2 H2O
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Dr. S. M. Condren
EXAMPLE
How much H2O, in moles results from burning an excess of H2 in 3.3 moles of O2?
H2 + O2 -----> H2O
2 H2 + O2 -----> 2 H2O (3.3 mol O2) (2 mol H2O)
#mol H2O = ------------------------------------ (1 mol O2)
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Dr. S. M. Condren
EXAMPLE
How much H2O, in moles results from burning an excess of H2 in 3.3 moles of O2?
H2 + O2 -----> H2O
2 H2 + O2 -----> 2 H2O (3.3 mol O2) (2 mol H2O)
#mol H2O = ------------------------------------ (1 mol O2)
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Dr. S. M. Condren
EXAMPLE
How much H2O, in moles results from burning an excess of H2 in 3.3 moles of O2?
H2 + O2 -----> H2O
2 H2 + O2 -----> 2 H2O (3.3) (2 mol H2O)
#mol H2O = ------------------------ = 6.6 mol H2O (1)
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Dr. S. M. Condren
Combination Reaction
PbNO3(aq) + K2CrO4(aq) PbCrO4(s) + 2 KNO3(aq)
Colorless yellow yellow colorless
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Dr. S. M. Condren
Stoichiometric Roadmap
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together?
Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additional 10% mass of iron.
http://www.cbu.edu/~mcondren/Demos/Thermite-Welding.ppt
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together?
Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additional 10% mass of iron.
The mass of iron in 1 inch of this rail is:
#g/in = (132 #/yard) (1 yard/36 in) (454 g/#)
= 1.67 X 103 g/in
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that
one inch of the rails will be covered by an additional 10% mass of iron.
The mass of iron in 1 inch of this rail is:#g/in = (132) (1/36 in) (454 g)
= 1.67 X 103 g/inThe mass of iron in a weld adding 10% mass:
#g = (1.67 X 103 g) (0.10) = 167 g
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additonal 10% mass of iron.
The mass of iron in 1 inch of this rail is:
#g/in = (132 #/yard) (1 yard/36 in) (454 g/#)
= 1.67 X 103 g/in
The mass of iron in a weld adding 10% mass:
#g = (1.67 X 103 g) (0.10) = 167 g
Balanced chemical equation:
Fe2O3 + 2 Al ---> 2 Fe + Al2O3
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additonal 10% mass of iron.
The mass of iron in 1 inch of this rail is:
#g/in = (132 #/yard) (1 yard/36 in) (454 g/#)
= 1.67 X 103 g/in
The mass of iron in a weld adding 10% mass:
#g = (1.67 X 103 g) (0.10) = 167 g
Balanced chemical equation:
Fe2O3 + 2 Al ---> 2 Fe + Al2O3
What mass of Fe2O3 is required for the thermite process?
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additonal 10% mass of iron.
The mass of iron in a weld adding 10% mass:
#g = (1.67 X 103 g) (0.10) = 167 g
Balanced chemical equation:
Fe2O3 + 2 Al ---> 2 Fe + Al2O3
What mass of Fe2O3 is required for the thermite process?
#g Fe2O3 = (167 g Fe) (1 mol Fe) * -------------- (55.85 g Fe)
(1 mol Fe2O3)----------------- (2 mol Fe)
(159.7 g Fe2O3)------------------- (1 mol Fe2O3)= 238 g Fe2O3
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additonal 10% mass of iron.The mass of iron in a weld adding 10% mass: #g Fe = 167 g Fe
Balanced chemical equation:Fe2O3 + 2 Al ---> 2 Fe + Al2O3
What mass of Fe2O3 is required for the thermite process?#g Fe2O3 = 238 g Fe2O3
What mass of Al is required for the thermite process?
#g Al = (167 g Fe) (1 mol Fe) * ---------------- (55.85 g Fe)
(2 mol Al) -------------(2 mol Fe)
(26.9815 g Al)------------------- (1 mol Al)
= 80.6 g Al
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Dr. S. M. Condren
EXAMPLE How much iron(III) oxide and aluminum powder are required to field weld the ends of two rails together? Assume that the rail is 132 lb/yard and that one inch of the rails will be covered by an additonal 10% mass of iron.
The mass of iron in a weld adding 10% mass:
#g Fe = 167 g Fe
#g Fe2O3 = 238 g Fe2O3
#g Al = 80.6 g Al
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Dr. S. M. Condren
Limiting Reactant
reactant that limits the amount of product that can be produced
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Dr. S. M. Condren
EXAMPLE
What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
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Dr. S. M. Condren
EXAMPLE
What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
balanced equation relates:
2Fe2S3(S) <=> 6H2O(l) <=> 3O2(g)
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Dr. S. M. Condren
EXAMPLE
What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
balanced equation relates:
2Fe2S3(S) <=> 6H2O(l) <=> 3O2(g)
have only:
1Fe2S3(S) <=> 2H2O(l) <=> 3O2(g)
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Dr. S. M. Condren
EXAMPLE What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
balanced equation relates:2Fe2S3(S) <=> 6H2O(l) <=> 3O2(g)
have only:1Fe2S3(S) <=> 2H2O(l) <=> 3O2(g)
not enough H2O to use all Fe2S3
plenty of O2
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Dr. S. M. Condren
EXAMPLE What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
if use all Fe2S3:
(1.0 mol Fe2S3) (4 mol Fe(OH)3)
#mol Fe(OH)3 = ------------------------------------------ (2 mol Fe2S3)
= 2.0 mol Fe(OH)3
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
if use all H2O:
(2.0 mol H2O) (4 mol Fe(OH)3) #mol Fe(OH)3 = -----------------------------------------
(6 mol H2O)= 1.3 mol Fe(OH)3
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
if use all O2
(3.0 mol O2) (4 mol Fe(OH)3) #mol Fe(OH)3 = ---------------------------------------
(3 mol O2)
= 4.0 mol Fe(OH)3
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
1.0 mol Fe2S3 => 2.0 mol Fe(OH)3
2.0 mol H2O => 1.3 mol Fe(OH)3
3.0 mol O2 => 4.0 mol Fe(OH)3
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
1.0 mol Fe2S3 => 2.0 mol Fe(OH)3
2.0 mol H2O => 1.3 mol Fe(OH)3
3.0 mol O2 => 4.0 mol Fe(OH)3
Since 2.0 mol H2O will produce only 1.3 mol Fe(OH)3, then H2O is the limiting reactant. Thus the correct number of moles of Fe(OH)3 is 1.33 moles.
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
1.0 mol Fe2S3 => 2.0 mol Fe(OH)3
2.0 mol H2O => 1.3 mol Fe(OH)3 least amount
3.0 mol O2 => 4.0 mol Fe(OH)3
Since 2.0 mol H2O will produce only 1.3 mol Fe(OH)3, then H2O is the limiting reactant.
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Dr. S. M. Condren
EXAMPLE: What is the number of moles of Fe(OH)3 (S) that can be produced by allowing 1.0 mol Fe2S3, 2.0 mol H2O, and 3.0 mol O2 to react?
2Fe2S3(S) + 6H2O(l) + 3O2(g) -----> 4Fe(OH)3(S) + 6S(S)
1.0 mol Fe2S3 => 2.0 mol Fe(OH)3
2.0 mol H2O => 1.3 mol Fe(OH)3 least amount
3.0 mol O2 => 4.0 mol Fe(OH)3
Since 2.0 mol H2O will produce only 1.3 mol Fe(OH)3, then H2O is the limiting reactant. Thus the maximum number of moles of Fe(OH)3 that can be produced by this reaction is 1.3 moles.
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Dr. S. M. Condren
Theoretical Yield
the amount of product produced by a reaction based on the amount of the limiting reactant
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Dr. S. M. Condren
Actual Yield
amount of product actually produced in a reaction
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Dr. S. M. Condren
Percent Yield
actual yield% yield = --------------------- * 100 theoretical yield
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O
(a) to calculate the theoretical yield, use the net equation for the overall process
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00 kg Cl2) #kg N2H4 = ---------------------
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00 kg Cl2) (1000 g Cl2)#kg N2H4 = -----------------------------------
(1 kg Cl2) metric conversion
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00) (1000 g Cl2) (1 mol Cl2) #kg N2H4 = -----------------------------------------
(1) (70.9 g Cl2) molar mass
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00)(1000)(1 mol Cl2) #kg N2H4 = -----------------------------------------
(1)(70.9)
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00)(1000)(1 mol Cl2)(1 mol N2H4) #kg N2H4 = -------------------------------------------------
(1) (70.9) (1 mol Cl2)
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00)(1000)(1)(1 mol N2H4) #kg N2H4 = -------------------------------------------------
(1) (70.9)(1)
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00)(1000)(1)(1 mol N2H4) (32.0 g N2H4) #kg N2H4 = --------------------------------------------------------
(1)(70.9) (1) (1 mol N2H4)
molar mass
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process
(1.00)(1000)(1)(1) (32.0 g N2H4)(1 kg N2H4)#kg N2H4 = ----------------------------------------------------------
(1)(70.9)(1)(1) (1000 g N2H4)
metric conversion
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process(1.00)(1000)(1)(1) (32.0)(1 kg N2H4)
#kg N2H4 = ----------------------------------------------------------(1)(70.9)(1)(1)(1000)
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) to calculate the theoretical yield, use the net equation for
the overall process(1.00)(1000)(1)(1) (32.0)(1 kg N2H4)
#kg N2H4 = ----------------------------------------------------------(1)(70.9)(1)(1)(1000)
= 0.451 kg N2H4
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) theoretical yield #kg N2H4 = 0.451 kg N2H4
(b) actual yield
(0.299 kg product) # kg N2H4 = --------------------------
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) theoretical yield #kg N2H4 = 0.451 kg N2H4
(b) actual yield (0.299 kg product) (98.0 kg N2H4)
# kg N2H4 = -------------------------------------------- (100 kg product)
purity factor
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) theoretical yield #kg N2H4 = 0.451 kg N2H4
(b) actual yield (0.299 kg product) (98.0 kg N2H4)
# kg N2H4 = -------------------------------------------- (100 kg product)
= 0.293 kg N2H4
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) theoretical yield #kg N2H4 = 0.451 kg N2H4
(b) actual yield # kg N2H4 = 0.293 kg N2H4
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Dr. S. M. Condren
EXAMPLE A chemical plant obtained 0.299 kg of 98.0% N2H4 for every 1.00 kg of Cl2 that is reacted with excess NaOH and NH3. What are the: (a) theoretical, (b) actual, and (c) percent yield of pure N2H4?
2NaOH + Cl2 + 2NH3 -----> N2H4 + 2NaCl + 2H2O(a) theoretical yield #kg N2H4 = 0.451 kg N2H4
(b) actual yield # kg N2H4 = 0.293 kg N2H4
(c) percent yield 0.293 kg
% yield = -------------- X 100 = 65.0 % yield 0.451kg