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Transcript of Electrochemistry (Applications of Redox). Unit Essential Questions What does electrochemistry study?...
![Page 1: Electrochemistry (Applications of Redox). Unit Essential Questions What does electrochemistry study? How are cell potentials calculated?](https://reader033.fdocuments.us/reader033/viewer/2022061517/56649efe5503460f94c130d6/html5/thumbnails/1.jpg)
Electrochemistry(Applications of Redox)
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Unit Essential Questions
What does electrochemistry study?
How are cell potentials calculated?
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Review- Redox Redox = oxidation/reduction reaction. What occurs during a redox reaction?
– Changes in oxidation states; oxidation = losing e-, reduction = gaining e-.
OIL- RIG– Oxidation Involves Loss– Reduction Involves Gain
LEO-GER – Lose Electrons Oxidation– Gain Electrons Reduction
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PracticeWhich of the reactions below exhibits oxidation and which exhibits reduction?
Cu+2(aq) + 2e- Cu(s)
Zn(s) Zn+2(aq) + 2e-
What is the reducing agent?
What is the oxidizing agent?
oxidationreduction
Zn(s) Cu+2
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Electrochemical CellsThe two half reactions can be combined from the previous example:
Cu+2(aq) + Zn(s) Cu(s) + Zn+2(aq)– Notice the e- are not shown because
they cancelled out on both sides.– The e- are directly transferred from the
copper to the zinc.– These e- can be used to do work if they
are indirectly transferred between substances!
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Electrochemical Cells Two half reactions are separated in two
different beakers with a wire connecting them.
– Wire allows the current (e-) to travel between beakers.
– Flow of e- through the wire can be used to do work.
Electrochemical cells can be used to produce electricity from a redox reaction or can use electricity to produce a redox reaction.
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Section 17.1
Galvanic (Voltaic) Cells
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What is a Galvanic Cell? A type of electrochemical cell that allows
chemical energy to be changed into electrical energy.
Chemical energy comes from change in oxidation states (redox reaction).
Wire used in the galvanic cell allows the electrical energy to be used for work.
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Making a Galvanic Cell Continue with previous example:
Cu+2(aq) + Zn(s) Cu(s) + Zn+2(aq) Zinc metal is placed in one beaker and
copper metal is placed in the other.– These are the electrodes- the part that
conducts e- in the redox reaction. Zinc sulfate solution is added to the zinc
metal and copper (II) sulfate is added to the copper metal.
– Called electrode compartments.
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Zn+2
SO4-2
Cu+2
SO4-2
Electrodes are connected with a wire so the reaction can start. But nothing happens! Why?
Charge would build up, and solutions (electrode compartments) must remain neutral!
Zn
Cu
Positive b/c form Zn+2 ions
Negativeb/c lose Cu+2 ions
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Zn+2SO4
-2
Galvanic Cell
Salt bridge is added
to maintain
neutrality.
Zn
Cu
Cu+2SO4-2
NO3- K+
e-e-
e-
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Salt Bridge Any electrolyte can be used to keep charges
neutral, as long as the ions don’t interfere with the redox reaction.
KNO3 used in previous example.– K+ ions flow into the copper beaker (to
make up for the negative charge).
– NO3- ions flow into the zinc beaker (to
make up for the positive charge). Salt bridge allows the circuit to be complete
and the redox reaction to occur.
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Galvanic Cell Components A voltmeter can be attached to the wire
between the electrodes to measure the current that can do work.
Oxidation half reaction is always shown in the left beaker and the reduction half reaction is always shown in the right beaker.
– Anode = oxidation half reaction, – Cathode = reduction half reaction– Also have anode and cathode
compartments.
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Zn+2SO4
-2
Galvanic Cell
anode
Zn
Cu
Cu+2SO4-2
NO3- K+
e-e-
e-
cathode
Notice the e- travel from the anode to the
cathode!
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Inert ElectrodesSolid electrodes that do not participate in
the redox reaction can be used.These electrodes are only there to
complete the circuit/allow the electricity to flow.
– They supply/accept e- as needed.– Graphite and platinum are often used.
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Alternative Galvanic Cell
* A porous disk is used instead of a salt bridge to maintain the circuit/neutrality.
* Porous disk allows ions to flow between solutions.
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Cell PotentialOxidizing agent ‘pulls’ the e- from
reducing agent.
The pull/driving force = cell potential Ecell, or electromotive force (emf).
Unit = volts (V) – 1 volt = 1 joule of work/coulomb of
chargeMeasured with a voltmeter
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Section 1 Homework
Pg. 830 #15, 25
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Section 17.2
Standard Reduction Potential
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Standard Reduction PotentialsShow the number of volts produced from
a half reaction.All values are based on the reduction half
reaction (thus the name standard reduction potential).
This value is for substances in their standard states: 25°C(298K), 1M, 1atm, and pure solid electrodes.
Standard hydrogen electrode- all other values based off of H!
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AP Practice Question2BrO3
-(aq) + 12H+(aq) + 10e- Br2(aq) + H2O (l)
Which of the following statements is correct for the above reaction?
The BrO3- is oxidized at the anode.
Br goes from a -1 to a 0 oxidation state.Br2 is oxidized at the anode.The BrO3
- is reduced at the cathode.
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1 M HCl
H+
Cl-
H2 in
Standard Hydrogen ElectrodeThis is the reference
all other oxidations/reductions are compared to.
Eº = 0 º indicates standard
states of 25ºC, 1 atm, 1 M solutions.
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Zn+2 SO4-
2
1 M HCl
Anode
0.76V
1 M ZnSO4
H+
Cl-
H2 in
Cathode
Since H = 0, this value is assigned to the oxidation of Zn.
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Cell PotentialZn(s) + Cu+2 (aq) Zn+2(aq) + Cu(s)The total cell potential is the sum of the
potential at each electrode.
E ºcell = E ºZn Zn+2 + E ºCu+2 Cu
Look up reduction potentials in a table.– Since potentials are given in terms of
reduction, the sign is switched for the oxidation reaction since the reaction is the reverse of reduction.
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Cell Potential Zn(s) + Cu+2 (aq) Zn+2(aq) + Cu(s) Reduction potentials are as follows:
Zn+2 + 2e- Zn E = -0.76V
Cu+2 + 2e- Cu E = 0.34V But Zn is not being reduced- it’s being oxidized! So
the sign must be changed:
E ºcell = 0.76V + 0.34V = 1.10V Alternate formula: E ºcell = E ºcathode - E ºanode
Cell potentials are always > 0 because they run spontaneously in the direction that produces a positive potential.
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Cell Potential Note that even if a half reaction must be
multiplied by an integer to keep e- transfer equal, the standard reduction potential associated with that half reaction IS NOT multiplied by that same integer!
This is because the standard reduction potential depends upon the reduction that is occurring, not how many times it occurs.
Like how the density of a sample of a substance is always the same, regardless of the size. It only depends on identity!
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Practice: Cell PotentialDetermine the cell potential for a galvanic
cell based on the redox reaction.
Cu(s) + Fe+3(aq) Cu+2(aq) + Fe+2(aq)
Fe+3(aq) + e- Fe+2(aq) Eº = 0.77 V
Cu+2(aq)+2e- Cu(s) Eº = 0.34 V
Eºcell = 0.43V
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Cell/Line Notation Shorthand way of representing galvanic
cells. Format:
solidAqueousAqueoussolid Anode on the leftcathode on the right. Single line separates different phases at
each electrode. Double line indicates porous disk or salt
bridge. Concentrations in ( ) may be added after
the aqueous species, if known.
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Cell/Line Notation Examples:
(1) Mg(s)Mg+2(aq)Al+3(aq)Al(s)
(2) Zn(s)Zn+2(1M)Cu+2(1M)Cu(s) If an inert electrode is used:
Ag+(aq) + Fe+2(aq) Fe+3(aq) + Ag(s)
*Pt electrode used for Fe+2 or Fe+3
Pt(s)Fe+2(aq),Fe+3(aq)Ag+(aq)Ag(s)
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Practice: Cell/Line Notation Given the cell reaction below, write the
cell/line notation.
Ni(s) + 2Ag+(aq) Ni+2(aq) + 2Ag(s)
Ni(s)Ni+2(aq)Ag+ (aq)Ag
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Summing up Galvanic Cells Reaction always runs spontaneously in
the direction that produces a positive cell potential (E ºcell > 0).
Four things for a complete description:
1) Cell Potential
2) Direction of flow
3) Designation of anode and cathode
4) Species present in all components- electrodes and ions.
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Section 2 Homework
I will do #31, part 25, with you.
Pg. 830 #27, 31
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Review: Balancing Redox Rxns. Using Half Rxn. Method
Write separate half reactions.For each half reaction balance all species
except H and O.
Balance O by adding H2O to one side.
Balance H by adding H+ to one side.Balance charge by adding e- to the more
positive side.
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Review: Balancing Redox Rxns. Using Half Rxn. Method
Multiply equations by a number to make electrons equal.
Add equations together and cancel identical species. Reduce coefficients to smallest whole numbers.
Check that charges and elements are balanced.
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In Basic SolutionAdd enough OH- to both sides to
neutralize the H+.Any H+ and OH- on the same side form
water. Cancel out any H2O’s on both sides.
Simplify coefficients, if necessary.
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AP Practice QuestionWhat is the coefficient of H+ when the following reaction is balanced?
MnO4-(aq) + H+(aq) + C2O4
-2(aq) Mn+2(aq) + H2O(l) + CO2(g)
16285
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HomeworkBalance the following equation in acidic and basic solution:
NO3- + Mn NO + Mn+2
Balanced equations:
3Mn + 8H+ + 2NO3- 2NO + 4H2O + 3Mn+2
3Mn + 4H2O + 2NO3- 2NO + 8OH- + 3Mn+2
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Section 17.3
Cell Potential, Electrical Work, and Free Energy
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Linking Cell Potential to ΔGCell potential is directly related to the
difference in free energy between reactants and products.
This is shown in the following equation:
ΔG° = -nFEn = moles of e- in redox/half reactionF = Faraday’s constant = 96,485C/mole-E = cell potential (V = J/C)Units of G = J
Coulomb = unit of electric charge
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Linking Cell Potential to ΔGΔG° = -nFEWhy negative?
– Galvanic cells are spontaneous! If ΔG° was positive, the redox reaction
would be nonspontaneous.ΔG° can be calculated for half reactions
and for entire redox reactions.
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Sample CalculationCalculate ΔG° for the reaction:
Cu+2(aq) + Fe(s) Cu(s) + Fe+2(aq)
Look up half reactions and determine individual E values. Then calculate E for the cell.
– E = 0.78V = 0.78J/CMake sure e- are correct!ΔG° = -(2mole-)(96,485C)(0.78J) = -1.5x105J
Process is spontaneous. mole- C
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Practice ProblemConsider the following reaction:
Mn+2(aq) + IO4-(aq) IO3
-(aq) + MnO4-(aq)
Calculate the value of E cell and ΔG°. Be sure to balance the e- (you can use the half reactions and balance them from there).E cell = 0.09VΔG° = -90kJ
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Section 3 Homework
Pg. 831 #: 37
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Section 17.4
Dependence of Cell Potential on Concentration
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Qualitative Understanding The following reaction is under standard
conditions:
Cu(s) + 2Ce+4(aq) Cu+2(aq) + 2Ce+3(aq) What if [Ce+4] was greater than 1.0M?
– Use LeChatelier’s principle!– This shifts the rxn. forward, which means
more products are formed and therefore more e- are flowing/transferring to allow them to form.
– Cell potential increases.
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Another Way of Looking at ItCu(s) + 2Ce+4(aq) Cu+2(aq) + 2Ce+3(aq)
What if [Ce+4] was greater than 1.0M?– Use LeChatelier’s principle!– The rxn. shifting more towards the
products means the rxn. is more spontaneous, so –ΔG increases.
– Recall that –ΔG = -nFE°cell, so if -ΔG is increasing, so must E°cell because n and F are constant for this rxn.
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PracticeFor the cell reaction:
2Al(s) + 3Mn+2(aq) 2Al+3(aq) + 3Mn(s)
E°cell = 0.48V
Predict whether E°cell is larger or smaller than E°cell for the following cases.
[Al+3] = 2.0M, [Mn+2] = 1.0M[Al+3] = 1.0M, [Mn+2] = 3.0M
smaller
larger
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Quantitative Understanding• We will not cover the quantitative side of
how cell potential changes with concentration, but I want to mention the Nernst Equation:
Ecell = E°cell –(RT)lnQ = E°cell –(0.0592)logQ
• Lets you calculate cell potential under non-standard conditions.
• Not tested on the AP exam.
nF n
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HomeworkPg. 832 # 51
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Section 17.7
Electrolysis
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Electrolytic cells use electrolysis and are the opposite of galvanic cells.
– Reactions are not spontaneous. Electrolysis: a voltage bigger than the cell potential
is applied to the cell to force the non spontaneous redox reaction to occur.
– Can be used to decompose compounds.
• Water can be broken into hydrogen & oxygen. Can also be used for (electro)plating.
– Forces metal ions in solution to plate out on electrodes in their solid form.
Electrolytic Cells
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1.0 M
Zn+2
e- e-
Anode Cathode
1.10
Zn Cu1.0 M
Cu+2
Galvanic Cell
Cell potential = 1.10V
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1.0 M Zn+2
e- e-
AnodeCathode
A battery >1.10V
Zn Cu
1.0 M Cu+2
Electrolytic Cell
Voltage applied > 1.10V
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Electrolytic CellsRelationship exists between current, charge,
and time: I = q/t – I = current (A, amp)– q = charge (C)– t = time (s)
This formula can be used in conjunction with other conversion factors to solve for various items with respect to electrolytic cells.
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Electrolytic Cells & Stoichiometry The previous formula and stoichiometry
can be used to determine the amount of chemical change that occurs when current is applied for a certain amount of time.
Answers the following questions:– How much of a substance will be
produced?– How long will it take?– How much current is needed?
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Electrolytic Cells & Stoichiometry No set way to solve these problems each time!
In addition to the formula, the following conversion factors may be used:
96,485C/mol e- (this is 1 Faraday) Molar mass Moles of electrons to moles of other species
involved in the redox rxn.– Make sure moles in the half rxn. are correct!
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ExampleIf liquid titanium (IV) chloride (acidified with HCl) is electrolyzed by a current of 1.000amp for 2.000h, how many grams of titanium will be produced?
Have: amps & time can use both to find q from previously discussed formula:
I = q/t 1.000A = q/2.000h convert h to s
1.000A = q/7,200.s
q = 7,200.As q = 7,200.C s q = 7,200.C
*Now use stoichiometry to solve for grams!s
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Example Cont.If liquid titanium (IV) chloride (acidified with HCl) is electrolyzed by a current of 1.000amp for 2.000h, how many grams of titanium will be produced?
Use Faraday’s constant to get moles of e-, write balanced half rxn. to get moles of e- and moles of Ti: Ti+4 Ti + 4e-
7,200.C x 1mole- x 1molTi x 47.88gTi96,485C 4mole- 1molTi
= 0.8932g
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Practice ProblemWhat mass of copper is plated out when a current of 10.0amps is passed for 30.0min through a solution containing Cu+2?
Solve for q: 10.0A = q/1,800s q = 18,000C18,000C (1mole-)(1molCu)(63.55gCu)
96,485C 2mole- 1molCu
=5.93gCu
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Homework In class- 77(a)
– Given mass and I; from mass we can find charge, q. Then use formula to solve for time.
Pg. 834 #77(b&c),79(a&b)