Presentation is loading. Please wait.

Presentation is loading. Please wait.

A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? +3+2 +4 The.

Published bySylvia Cox Modified over 8 years ago

Similar presentations

Presentation on theme: "A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? +3+2 +4 The."— Presentation transcript:

1 A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? +3+2 +4 The iron’s charge has become more negative, so it is reduced. The tin’s charge has become more positive, so it is oxidized. reduced oxidized 0 +2 +4 +6 +8 -2 -6 -4 0 +2 +4 +6 +8 -2 -6 -4 Fe Sn 2 FeCl 3 + SnCl 2  2 FeCl 2 + SnCl 4

2 Which reactant is oxidized and which is reduced in the following? 2) Cu + 2AgNO 3  Cu(NO 3 ) 2 + 2Ag 0+1+20 reduced oxidized 1) Cl 2 + SnCl 2  SnCl 4 0 reduced oxidized +2+4 3) 2KClO 3  2KCl + 3O 2 -20 +5 reduced oxidized Synthesis Single-replacement Decomposition Note that a redox reaction can also be another type of reaction. KClO 3 +1 + x + 3(–2) = 0 x = +5

3 +7+3+4 Balancing Redox Reactions MnO 4 – + C 2 O 4 2–  Mn 2+ + CO 2 Rxn: 1. Determine the oxidation number of the redox active species. 2. Split the redox reaction into two half reactions (remember OIL RIG) and add in the #e– being transferred. Red: Ox: MnO 4 –  Mn 2+ 3. Balance the oxygens with H 2 O and the hydrogens with H +. C 2 O 4 2–  2 CO 2 + 4 H 2 O5e – +8 H + + + 2e– 4. Multiply both half-reactions by a factor that will make the #e – transferred equal. 2 5 5. Add the two half-reactions to get the final balanced redox rxn. + 16 H + + 2 MnO 4 – + 5 C 2 O 4 2–  2 Mn 2+ + 10 CO 2 + 8 H 2 O (acidic conditions)

4 Balancing Redox Reactions Under Basic Conditions 1. Balance reaction using acidic conditions. 16 H + + 2 MnO 4 – + 5 C 2 O 4 2–  2 Mn 2+ + 10 CO 2 + 8 H 2 O 2. Add OH – to both sides to neutralize the H +. +16 OH– 16 H 2 O 3. Cancel out excess water and rewrite reaction equation. 8 8 H 2 O + 2 MnO 4 – + 5 C 2 O 4 2–  2 Mn 2+ + 10 CO 2 + 16 OH –

5 Voltaic (alt. Galvanic) Electrochemical Cells Salt bridge Reduction takes place at the cathode. Oxidation takes place at the anode. E A = +0.763 VE C = +0.153 V E cell = E A + E C E cell = 0.763V + 0.153 V 0.916 V 0.92 Zn  Zn 2+  Cu 2+  Cu Anode  Cathode

6 Example: What are the standard cell potentials for the folllowing? 1. Al  Al 3+  Ag +  Ag Al 3+ + 3e–  AlE o = –1.66 VAg+ + e–  AgE o = +0.80 V Br 2 + 2e–  2Br– E o = +1.06 V Ox: Al  Al 3+ + 3e– Red: Ag + + e–  Ag +1.66 V +0.80 V +2.46 V 2. Ag  Ag +  Br 2  Br– Ox: Ag  Ag + + e– Red: Br 2 + e–  2 Br– –0.80 V +1.06 V +0.26 V Note: Voltaic cells ALWAYS have positive cell emf’s (voltages).

7 Some terminology emf–Electromotive force; force causing e– to move SHE–Standard hydrogen electrode; E o = 0 V by definition. Standard conditions–Solution concentrations = 1 M and gas pressures = 1 atm Oxidizing agent–is reduced during redox rxn Reducing agent–is oxidized during redox rxn Faraday’s constant =96485 C/mol e– transferred R =8.314 J/mol·K 1 A =1 C/s (C  Coulomb = a quantity of charge) 1 V =1 J/C

8 Table of Standard Reduction Potentials  SHE Good oxidizing agent = large, positive reduction potential Good reducing agent = large, negative reduction potential

9 A voltaic cell generates current as a result of a spontaneous redox reaction. The equations relating E,  G and K are:  G = -nFE lnK = -  G/RT = nFE/RT R = 8.314 J/mol·K, T = temperature in Kelvin, F = 96485 C/mol n = # electrons transferred in reaction 20.58 What are  G and K for: 2VO 2 + + 4H + + 2Ag  VO 2+ + 2H 2 O + 2Ag + E cell = E C + E A = 1.00 V + (–0.799 V) = 0.201 V n = 2 e–  G = -nFE = -(2 e–)(96485 C/mol e–)(0.201 V) = -38787 J/mol (Remember 1 V = 1 J/C) K = e –  G/RT = e (38787 J/mol)/(8.314 Jmol*298K) = e15.7 = 6294875

10 Operating under non-standard conditions: Nernst Eq. = 20.50 What is the cell potential for the following if [Ce 4+ ]=2.0M, [Ce 3+ ] = 0.010 M and [Cr 3+ ] = 0.010 M? 3Ce 4+ + Cr(s)  3Ce 3+ + Cr 3+ n =3e– RED OX E o = E C + E A = +1.61 V + +0.74 V = 2.35 V E = 2.35 V – (0.0592/3)log [0.010 M] 3 [0.010 M] [2.0 M] 3 = 2.53 V Because [reactants]>>[products] AND the reaction has a large positive E o, the emf has increased to produce more product.

11 Electrolysis:Decomposition of a compound by passing electricity through it. 20.80 Metallic magnesium can be made by the electrolysis of molten MgCl 2. What mass of Mg is formed by passing a current of 5.25 A through molten MgCl 2 for 2.50 days? Calculate total time: Calculate total charge passed = Divide by 2 because it takes 2e–/equiv Mg 2+ = 567000 C Calculate mol Mg = Calculate grams Mg = Ans: 143 g of Mg will be formed 5.25 C/s * 216000 s = 1134000 C 567000 C /(96485 C/mol) = 5.877 mol Mg(s) 5.877 mol Mg(s) * 24.305 g/mol = 142.8 g

Download ppt "A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? +3+2 +4 The."

Similar presentations

Chapter 20: Electrochemsitry A.P. Chemsitry. 20.1 Oxidation-Reduction Reactions Oxidation-reduction reactions (or redox reactions) involve the transfer.

Chapter 20: Electrochemsitry A.P. Chemsitry Oxidation-Reduction Reactions Oxidation-reduction reactions (or redox reactions) involve the transfer.
Chapter 20 Electrochemistry.

Chapter 20 Electrochemistry.
Prentice Hall © 2003Chapter 20 Zn added to HCl yields the spontaneous reaction Zn(s) + 2H + (aq)  Zn 2+ (aq) + H 2 (g). The oxidation number of Zn has.

Prentice Hall © 2003Chapter 20 Zn added to HCl yields the spontaneous reaction Zn(s) + 2H + (aq)  Zn 2+ (aq) + H 2 (g). The oxidation number of Zn has.
Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Electrochemistry The study of the interchange of chemical and electrical energy.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Electrochemistry The study of the interchange of chemical and electrical energy.
Electrochemistry Chapter 4 4.4 and 4.8 Chapter 19 19.1-19.5 and 19.8.

Electrochemistry Chapter and 4.8 Chapter and 19.8.
Electrochemistry 18.1 Balancing Oxidation–Reduction Reactions

Electrochemistry 18.1 Balancing Oxidation–Reduction Reactions
Chapter 18 Electrochemistry

Chapter 18 Electrochemistry
Chapter 17 Electrochemistry 1. Voltaic Cells In spontaneous reduction-oxidation reactions, electrons are transferred and energy is released. The energy.

Chapter 17 Electrochemistry 1. Voltaic Cells In spontaneous reduction-oxidation reactions, electrons are transferred and energy is released. The energy.
Electrochemistry Chapter 4.4 and Chapter 20. Electrochemical Reactions In electrochemical reactions, electrons are transferred from one species to another.

Electrochemistry Chapter 4.4 and Chapter 20. Electrochemical Reactions In electrochemical reactions, electrons are transferred from one species to another.
Predicting Spontaneous Reactions

Predicting Spontaneous Reactions
Electrochemistry Chapter 19.

Electrochemistry Chapter 19.
Electrochemistry Chapter 19 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Electrochemistry Chapter 19 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Redox Reactions and Electrochemistry

Redox Reactions and Electrochemistry
Electrochemistry Chapter 19 Electron Transfer Reactions Electron transfer reactions are oxidation- reduction or redox reactions. Results in the generation.

Electrochemistry Chapter 19 Electron Transfer Reactions Electron transfer reactions are oxidation- reduction or redox reactions. Results in the generation.
Redox Reactions and Electrochemistry

Redox Reactions and Electrochemistry
Electrochemistry Chapter 17.

Electrochemistry Chapter 17.
Chapter 20 – Redox Reactions One of the earliest recognized chemical reactions were with oxygen. Some substances would combine with oxygen, and some would.

Chapter 20 – Redox Reactions One of the earliest recognized chemical reactions were with oxygen. Some substances would combine with oxygen, and some would.
Electrochemistry Chapter 19. 2Mg (s) + O 2 (g) 2MgO (s) 2Mg 2Mg 2+ + 4e - O 2 + 4e - 2O 2- Oxidation half-reaction (lose e - ) Reduction half-reaction.

Electrochemistry Chapter 19. 2Mg (s) + O 2 (g) 2MgO (s) 2Mg 2Mg e - O 2 + 4e - 2O 2- Oxidation half-reaction (lose e - ) Reduction half-reaction.
A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? 2 FeCl 3.

A redox reaction is one in which the reactants’ oxidation numbers change. What are the oxidation numbers of the metals in the reaction below? 2 FeCl 3.
Electrochemistry Brown, LeMay Ch 20 AP Chemistry.

Electrochemistry Brown, LeMay Ch 20 AP Chemistry.

Similar presentations

Ads by Google