chemistry i honors—unit 6 chemical equations, reactions, & redox
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Chemistry I Honors—Unit 6 Chemical Equations, Reactions, & Redox. Objectives #1-3: Introduction to Chemical Reactions, Reaction Interpretation, and Balancing. Chemical Equations Describe chemical reactions Starting substances are called reactants Ending substances are called products - PowerPoint PPT PresentationTRANSCRIPT
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Chemistry I Honors—Unit 6Chemical Equations, Reactions, & Redox
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I. Chemical Equations Describe chemical reactions Starting substances are called
reactants Ending substances are called products All chemical reactions must follow the
Law of Conservation of Matter by being balanced
Objectives #1-3: Introduction to Chemical Reactions, Reaction Interpretation, and Balancing
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II. Interpreting Chemical EquationsA. Symbols Symbol Meaning
+ and→ yields∆→
heat added
(s) solid(l) liquid(g) gas↑ gas produced↓ solid produced
elec
electricity added
(aq) aqueous solution
Fe→
catalyst required(element varies)
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II. B. Writing Unbalanced Equations “Liquid hydrogen peroxide decomposes to form
water vapor and pxygen gas in the presence of the catalyst manganese (IV) oxide.”
“Solid calcium carbide (CaC2) reacts with water to form ethyne gas and aqueous calcium hydroxide.”
Objectives #1-3: Introduction to Chemical Reactions, Reaction Interpretation, and Balancing
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“Ethyne gas (C2H2) reacts with oxygen in the the presence of a flame to produce carbon dioxide gas and water vapor.”
“Aqueous solutions of lead (II) nitrate and sodium iodine react to form lead (II) iodide and aqueous sodium nitrate.”
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Basic Procedures: Be sure all formulas are correct before attempting to balance Never balance by changing subscripts Use coefficients to balance Type and number of atoms on each side of
reaction must balance Coefficients used must be in the lowest ratio possible
III. Balancing Chemical Equations
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_____H2O2 _____ H2O + ______O2
___CaC2 + ___H2O ___C2H2 + __Ca(OH)2
___C2H2 + ____O2 ____CO2 + _____H2O
____Pb(NO3)2 + ___NaI ___NaNO3 + ___PbI2
Objectives #1-3: Introduction to Chemical Reactions, Reaction Interpretation, and Balancing
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Objective #4: Assignment of Oxidation NumbersPart I: Oxidation vs. Reduction
Oxidation is the loss of electrons; during this process the charge of a species increases
Reduction is the gain of electrons; during this process the charge of a species decreases
“OIL RIG” or “LEO the lion goes GER”
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Objective #4: Assignment of Oxidation Numbers Example I: Solid magnesium is reacted with
oxygen gas in the air to produce solid magnesium oxide
Equation: 0 0 +2 -2 Mg (s) + O2 (g) 2 MgO (s)
*What is the magnesium doing? Mg Mg+2 + 2 e-1
*What is the oxygen doing? O + 2e-1 O-2
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Which element has been oxidized? Mg Which element has been reduced? O
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Objective #4: Assignment of Oxidation Numbers Example II: Water is added to produce sufficient
heat to react solid forms of aluminum and iodine. The resulting reaction produces solid aluminum iodide.
Equation: 0 0 ∆ +3 -1 2 Al(s) + 3 I2 (s) 2 AlI3 (s)
*What is the aluminum doing? Al Al +3 + 3 e -1
*What is the iodine doing? I + e -1 I -1
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*Which element has been oxidized? Al*Which element has been reduced? I
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Objective #4: Assignment of Oxidation Numbers
In general, during REDOX reactions,
Metals tend to lose electrons and are oxidized
Nonmetals tend to gain electrons and are reduced
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Objective #4: Assignment of Oxidation Numbers
Part II: Utilization of Oxidation Number RulesSee text p.232-233
The “Big 4”: Group I elements are +1 Group II elements are +2 H is usually +1 O is usually -2
Remember: 1) Elements are always neutral (zero)! 2) The total of the oxidation numbers in a compound must be neutral (zero)!!
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He NaCl Na2Cr2O7
Ca(ClO3)2 OF Mg3(PO4)2
CrO4 -2
Oxidation Number Examples:
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Demo Redox Reaction:
NaI(s) + H2SO4 (l) + MnO2 (s)
I2 (g) + MnSO4 (aq) + Na2SO4 (aq) + H2O(l)
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Writing Half-Reactions (charges and atoms must balance to in order to be conserved! )
Examples:
K K+1 + _____ (__________) S + _______ S-2 (__________) Mg Mg+2 + _______ (__________) _____F-1 ______+ F2 (__________)
Objective #5: Balancing Redox Reactions
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Objective #5: Balancing Redox Reactions
Key Steps:1.Write half-reactions for the oxidation
and reduction sections of the reaction.
2. Balance all elements except hydrogen and
oxygen.3. Balance oxygen by using water.4. Balance hydrogen by using hydrogen ions.
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5. Balance charge by adding electrons to the side that is deficient in electrons.6. Equalize electrons lost and gained by multiplying each half-reaction by an appropriate factor.7. Add together half-reactions and cancel like species.8. Check that atoms and charges balance.
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MnO4 -1 + Fe -2 Fe +3 + Mn-2
Example #1:
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Cr2O7-2 + Cl-1 Cr+3 +
Cl2
Example #2:
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Ce+4 + H3AsO3 Ce+3 + H3AsO4
Example #3:
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Example #4:I2 + OCl -1 IO3
-1 + Cl -1
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Examples: Copper + silver nitrate silver + copper (II)
nitrate
Element Oxidized:_______ “The Box:” Element Reduced: _______ O: OA: Oxidizing Agent:________ Reducing Agent: ________ R: RA:
Balancing Redox Reactions
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Objective #6-8: Oxidizing and Reducing Agents
Examples—see packet
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Objective #6-8: Oxidizing and Reducing Agents
Summary:The charge of the element oxidized goes upThe charge of the element reduced goes downThe item oxidized is the reducing agentThe item reduced is the oxidizing agentA species that is the source of BOTH oxidation and reduction is said to be disproportionate.
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Objective #6-8: Oxidizing and Reducing Agents
Oxidizing and Reducing AbilityExample Demo: Cu + AgNO3 Cu(NO3)2 + Agassignment of oxidation numbers: 0 +1 +5 -2 +2 +5 -2 0 Cu + AgNO3 Cu(NO3)2 + AgCu has been oxidized and therefore Cu is the reducing agentAg has been reduced and therefore AgNO3 is the oxidizing agent
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The more easily a species can lose electrons, the greater its ability to be a reducing agent and cause another species to gain electrons.
A species that loses electrons readily is unlikely to gain electrons and be reduced; such a species would not cause another species to lose electrons readily and therefore would act as a poor oxidizing agent
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Objective #6-8: Oxidizing and Reducing Agents Example: Na + FeCl3 NaCl + Fe assignment of oxidation numbers: 0 +3 -1 +1 -1 0 Na + FeCl3 NaCl + Fe _____ is oxidized Na _____ is reduced Fe
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*______ is the reducing agent and therefore would act as a ______ oxidizing agent
Na, poor*______ is the oxidizing agent and therefore
would act as a _______ reducing agentFeCl3, poor
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A. Synthesis ReactionsGeneral formula: A + B AB
B. Decomposition ReactionsGeneral formula: AB A + B
C. Single-Displacement ReactionsGeneral formula: A + BC AC + B
D. Double Replacement Reactions General Formula: AB + CD AD + CB
E. Combustion ReactionsGeneral Formula: Hydrocarbon + O2 CO2 + H2O
Obj. 9 & 10—Types of Chem Rxns
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Recall that oxidation-reduction reactions involve the transfer of electrons
A. Synthesis Reactions General formula: A + B AB Examples: Nonmetal + oxygen nonmetal oxide S + O2 SO3
N2 + O2 NO2
Objective #9: Oxidation-Reduction Reactions
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Metal + oxygen metal oxide Rb + O2 Rb2O Mg + O2 MgO
Nonmetal + sulfur nonmetal sulfide C + S CS2
S + O2 SO3 (additional info needed)
Metal + sulfur metal sulfide Rb + S Rb2S Mg + S MgS
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Metal + halogen metal halide Na + Cl2 NaCl Ca + I2 CaI2
Metal oxide + water metal hydroxide (base) Na2O + H2O NaOH MgO + H2O Mg(OH)2
Nonmetal oxide + water acid SO3 + H2O H2SO4 (add. info. needed)
SO2 + H2O H2SO3
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B. Decomposition ReactionsGeneral formula: AB A + BExamples:Decomposition of binary compounds 2
elements H2O H2 + O2
NaCl Na + Cl2
Decomposition of metal carbonates carbon dioxide + metal oxide
BaCO3 BaO + CO2
Na2CO3 Na2O + CO2
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Decomposition of metal hydroxides water + metal oxide
NaOH H2O + Na2O
Ca(OH)2 H2O + CaO
Decomposition of metal chlorates oxygen +metal chloride
KClO3 KCl + O2
Ca(ClO3)2 CaCl2 + O2
Decompostion of acids water + nonmetal oxide
H2SO4 H2O + SO2
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C. Single-Displacement Reactions General formula: A + BC AC + BExamples:High metal + compound low metal + compound Fe + CuSO4 Cu + FeSO4
Cu + AgNO3 Ag + Cu(NO3)2
Active metal + water hydrogen + (low electronegativity) metal hydroxide Na + H2O H2 + NaOH
Ca + H2O H2 + Ca(OH)2
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Metal + acid hydrogen + salt Zn + HCl ZnCl2 + H2
Mg + H3PO4 H2 + Mg3(PO4)2
High halogen + compound low halogen +
compound F2 + NaCl Cl2 + NaF
Br2 + NaI I2 + NaBr
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An activity series is a vertical listing of elements in terms of their chemical reactivity; elements that are more reactive are listed at the top and less reactive elements are listed near the bottom (SEE RXN. PACKET!!)
A reactive element can readily transfer its valence electrons to another element
In general, for a single replacement reaction to go to completion, the lone element in the reaction must be higher on activity series that the element in the compound it is trying to displace.
Objective #11: Using an Activity Series
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Remember, however, that an activity series should only be used as a general guide for predicting simple replacement reactions (see Table 3 on p.286)
Examples: Predict if the following reactions will occur: Zn + H2O --› (assume Zn is +2 if rx.
occurs) No Rx. Sn + O2 --› (assume Sn is +4 if rx.
occurs) Rx. Occurs; SnO2 will form
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Cd + Pb(NO3)2 (assume Cd has a +2 charge if rx. occurs)
Rx. occurs ; Cd(NO3)2 + Pb
Cu + HCl (assume Cu has a charge of +2 if rx. occurs) No Rx.
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D. Double Replacement Reactions General Formula: AB + CD AD + CB
Type I: Formation of a Precipitate (precipitation)
Ionic compound + ionic compound aqueous solution +
precipitate
Pb(NO3)2 + NaI NaNO3 + PbI2(s)
Na2S + Pb(NO3)2 PbS(s) + NaNO3
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Type II: Formation of a GasIonic compound + ionic compound gas + aqueous solution +
water
NH4Cl + NaOH NH4OH + NaCl
NH3 + H2O
Na2SO3 + HCl H2SO3 + NaCl
SO2 + H2O
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Type III: Formation of Water (acid-base) Acid + Base water + salt*
NaOH + HCl H2O + NaCl
Ca(OH)2 + HCl H2O + CaCl2
*SALT = an ionic compound that does NOT contain H+ or OH-
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E. Combustion ReactionsExamples:Element + oxygen oxide Mg + O2 MgO
Na + O2 Na2O
Hydrocarbon + oxygen carbon dioxide + water
CH4 + O2 CO2 + H2O
C9H18 + O2 CO2 + H2O
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(see example in lecture guide)
Practice in Predicting the Products of Chemical Reactions
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Part I Dissociation of Ionic Compounds Dissociation process: The separation of ions
that occurs when an ionic compound is dissolved in water.
Examples: CaCl2(aq)
Ca+2(aq) + 2Cl-1(aq)
Al(NO3)3(aq) Al+3
(aq) + 3NO3-1
(aq)
Objectives #12: Compounds in Aqueous Solutions
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Part II Predicting Precipitation Use of the solubility table in lecture guide Examples:
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Part III: Writing Net Ionic Equations Net Reaction vs. Spectator IonsExamples:
Objective #12: Compounds in Aqueous Solutions