10.3 The Half-Reaction Method for Balancing Equations SCH4U1 Dec 8 th, 2009.

Slides:

Advertisements

Similar presentations

Chapter 4B: Balancing Redox Reactions

Advertisements

9.2 Redox reactions.

Redox Reactions Atom 1 Atom 2 Gives electrons This atom Oxidizes itself (loses electrons) It’s the reducing agent This atom Reduces itself (gains electrons)

Balancing Redox Equations. In balancing redox equations, the # of electrons lost in oxidation (the increase in ox. #) must equal the # of electrons gained.

Step 1: Write the unbalanced formula equations

Balancing Redox Reactions with Oxidation Numbers (see p 462) 1.Assign oxidation number 2.Identify oxidation and reduction 3.Determine the # of e- lost.

Here, we’ll use the half-reactions we came up with and balanced in Part 1 to build an equation for the overall Redox Reaction taking place. We’ll balance.

Chapter – Balancing Redox Reactions: The Half-Reaction Method.

1/2 reactions AP style. What are 1/2 reactions Reactions in aqueous solutions can be complicated and hard to balance. Our solution… break the one reaction.

Lecture 11: Electrochemistry Introduction

Lecture 10: Electrochemistry Introduction Reading: Zumdahl 4.10, 4.11, 11.1 Outline –General Nomenclature –Balancing Redox Reactions (1/2 cell method)

Balance Redox Equations: Half Reaction concentrate on electrons, balance each ½ rx. separately Ex: Cr 2 O 7 2- (aq) + Cl - (aq)  Cr 3+ (aq) + Cl 2 (g)

PROBLEM: Aqueous Sodium Permanganate plus Hydrochloric Acid yields Chlorine gas plus aqueous Mangenese(II) Chloride. Hint: There is another compound that.

Balancing Redox Equations: Many redox equations can be balanced through trial and error! You have been doing this for a least two years without even knowing.

Pg Balancing Redox Reaction  Can use “old” way: Ag (s) + Fe(NO3)3 (aq)  Fe (s) + AgNO3 (aq)  But what if we have a reaction that looks like.

Mr. Chapman Chemistry 30.  In previous classes, we learned how to balance chemical equations by counting atoms.  Following the Law of Conservation of.

Half-reactions show the oxidation or reduction reaction separated. Cu (s) + 2 AgNO 3(aq) → Cu(NO 3 ) 2(aq) + 2 Ag (s) Oxidation:Cu → Cu e – Reduction:Ag.

Step 1: Write the unbalanced formula equations

The Finish Line is in site… Electrochemistry. Balancing Redox Equations It is essential to write a correctly balanced equation that represents what happens.

Half Reactions. Balancing Oxidation-Reduction Equations Perhaps the easiest way to balance the equation of an oxidation-reduction reaction is via the.

Balancing Acidic Redox Reactions. Step 1: Assign oxidation numbers to all elements in the reaction. MnO 4  1 + SO 2  Mn +2 + SO 4  2 22 22 22.

Electrochemistry Reduction-Oxidation. Oxidation Historically means “to combine with oxygen” Reactions of substances with oxygen, ie Combustion, Rusting.

half reaction method for balancing in an acid or base

Redox Reactions.

Balancing Redox Equations. In balancing redox equations, the # of electrons lost in oxidation (the increase in ox. #) must equal the # of electrons gained.

Balancing Redox Equations. Electron Transfer Method (Change in Oxidation Number Method) works best for formula equations (no ions present) Steps: 1.Write.

Ion Electron Method Ch 20. Drill Use AP rev drill #

Reduction-Oxidation Reactions (1) 213 PHC 4th lecture (1) Gary D. Christian, Analytical Chemistry,6 th edition.

Chapter 5 Oxidation–Reduction Reactions Chemistry: The Molecular Nature of Matter, 7E Jespersen/Hyslop.

Balancing redox reactions 2. Balance oxidation-reduction reactions using redox methods Include: oxidation number method, and half- reaction method Additional.

1 Oxidation- Reduction Chapter 16 Tro, 2 nd ed. 1.1.

Chapter 19.1 Redox Reactions in Acidic or Basic Solutions Dr. Peter Warburton

Balancing Redox Reactions Chem 12. Application of oxidation numbers: Oxidation = an increase in oxidation number Reduction = a decrease in oxidation number.

1 Electrochemistry Chapter 19 2 Electron transfer reactions are oxidation- reduction or redox reactions. Electron transfer reactions result in the generation.

Ion Electron Method Ch 20. Write an oxidation and a reduction half reaction. Sn 2+ → Sn 4+ Hg 2+ + Cl -1 → Hg 2 Cl 2.

Oxidation-Reduction Reactions

Steps in Balancing Redox 1.Determine the oxidation number of all elements in the compounds 2. Identify which species have undergone oxidation and reduction.

Balancing Oxidation Reduction Equations

Unit: Electrochemistry

REDOX REACTIONS. Oxidation-Reduction reactions A reaction in which electrons are transferred from one atom to another Chemists often refer to oxidation-reactions.

Balancing Redox Reactions from Half-Reactions

Homework 21-1 Do REVIEW & PRACTICE, page 621 HEATH text, questions # Do REVIEW & PRACTICE, page 621 HEATH text, questions #1-4. Optional: Read.

What do you call a rusty cow? A Redox!. Balancing Redox Equations In Acidic & Basic Solution.

Chapter – Balancing Redox Reactions: The Half-Reaction Method.

Chapter 19: Electrochemistry Lecture Topics –1. Balancing Redox/Oxidation-Reduction Reactions. –2. Voltaic Cells –3. Electrolysis –4. Corrosion.

Balancing Oxidation-Reduction Reactions in Acidic & Basic Solutions

Balancing Redox Reactions

Chapter 18: Electrochemistry

Balancing redox reactions 2

2.7: Demonstrate understanding of oxidation-reduction

Oxidation-Reduction Reactions

Balancing Redox Reaction Equations

18.3 Balancing equations using Half-reactions in acidic or basic environments Read pages

Balancing Redox Equations:

CHAPTER – Balancing Redox Reactions: The Half- Reaction Method.

CHAPTER – Balancing Redox Reactions: The Half- Reaction Method.

2.6 Redox Part 1a. Balancing Redox Reactions (Half-equation method)

Redox Reactions.

BALANCING REDOX EQUATIONS

Chapter – Balancing Redox Reactions: The Half- Reaction Method.

Chapter 4 Oxidation Reduction Reactions

HELP Balancing Redox Reactions 3 I2 (s) + Al (s)  2 2 AlI

Balancing Redox Reactions using the ½ Reaction Method

FOLLOW THESE FOUR STEPS EVERY TIME!!!

More on Redox UNIT III REDOX.

Balancing redox reactions 2

Review of Terms Electrochemistry – the study of the interchange of chemical and electrical energy Oxidation–reduction (redox) reaction – involves a transfer.

HELP Balancing Redox Reactions 3 I2 (s) + Al (s)  2 2 AlI

Redox Cont Half-Reactions.

Balancing Redox Reactions using the ½ Reaction Method

Presentation transcript:

10.3 The Half-Reaction Method for Balancing Equations SCH4U1 Dec 8 th, 2009

Balancing Half-Reactions Half-Reaction: describes either the oxidation or reduction of a REDOX reaction. Oxidation : K  K + + e - Reduction : Cl 2 + 2e -  2Cl - Net Reaction :K + Cl 2  2KCl

Balanced Half Reactions and Net Reactions Net Reaction :K + Cl 2  2KCl Balance :2K + Cl 2  2KCl » 2 electrons lost 2 electrons gained

Balancing Half- Reactions in Acidic Media Write unbalanced half-reactions Balance all atoms EXCEPT for O and H Balance O by adding H 2 O Balance H by adding H + ions Balance the charges by adding electrons

Balancing Half- Reactions in Acidic Media ClO 3 -  Cl - ClO 3 -  Cl - + 3H 2 O (add water) 6H + + ClO 3 -  Cl - + 3H 2 O (add H ions) 6e - + 6H + + ClO 3 -  Cl - + 3H 2 O (add electrons)

Balancing Half- Reactions in Basic Media Write unbalanced half-reactions Balance all atoms EXCEPT for O and H Balance O by adding H 2 O Balance H by adding H + ions To BOTH sides, add as many OH - as H + were added Simplify OH - + H + to H 2 O if possible Remove excess H 2 O from both sides Balance the charges by adding electrons

Balancing Half- Reactions in Basic Media MnO 4 -  MnO 2 MnO 4 -  MnO 2 + 2H 2 O 4H + + MnO 4 -  MnO 2 + 2H 2 O 4OH - + 4H + + MnO 4 -  MnO 2 + 2H 2 O + 4OH - 4OH - + 3e - + 4H + + MnO 4 -  MnO 2 + 2H 2 O + 4OH - 4H 2 O + 3e - +MnO 4 -  MnO 2 + 2H 2 O + 4OH - 2H 2 O + 3e - + MnO 4 -  MnO 2 + 4OH -

Balancing the Net Ionic Reaction Electrons are neither created nor destroyed Electrons lost = Electrons gained  Break the reaction into 2 half-reactions  Balance the half-reactions separately  Multiply both by the lowest common multiple  Recombine the two half-reactions  Simplify by removing electrons and excess species

Balancing the Net Ionic Reaction MnO Ag  Mn 2+ + Ag + (acidic conditions) Oxidation Ag  Ag + + e - (balanced) For a 5e - transfer: 5Ag  5Ag+ + 5e - Reduction MnO 4 -  Mn 2+ MnO 4 -  Mn H 2 O 8H + + MnO 4 -  Mn H 2 O 8H + + 5e - + MnO 4 -  Mn H 2 O

Balancing the Net Ionic Reaction 5Ag  5Ag + + 5e - 8H + + 5e - + MnO 4 -  Mn H 2 O 5Ag + 8H + + 5e - + MnO 4 -  5Ag + + 5e - + Mn H 2 O 5Ag + 8H + + MnO 4 -  5Ag + + Mn H 2 O

Homework p. 662 # 18 p. 668 # 2a, 3a p. 673 # 6a, 7b