Redox Reactions I. Oxidation & Reduction-_____-_ __, or _ , are in which are from one to.

Slides:

Advertisements

Similar presentations

Chemical Equations Preparation for College Chemistry Columbia University Department of Chemistry.

Advertisements

Oxidation Number Rules  The oxidation number of any free, uncombined element is zero. n The oxidation number of an element in a simple (monatomic) ion.

Redox Reactions Chapter 18 + O 2 . Oxidation-Reduction (Redox) Reactions “redox” reactions: rxns in which electrons are transferred from one species.

Our Next Lab:. Relating Moles to Coefficients of a Chemical Reaction.

Precipitation and Redox Reactions How Reactions Occur

1 Chapter 11 Reactions in Aqueous Solutions II: Calculations Aqueous Acid-Base Reactions 1. Calculations Involving Molarity 2. Titrations 3. The Mole Method.

1 Oxidation-Reduction Reactions Electrons can be neither created out of nothing nor destroyed If an element is reduced It gains electrons Oxidation number.

Chemical Reactions Chapter 13. Acids Have a sour taste. Vinegar owes its taste to acetic acid. Have a sour taste. Vinegar owes its taste to acetic acid.

1 11 Reactions in Aqueous Solutions II: Calculations.

Chemical Reactions. Types of Reactions There are five types of chemical reactions we will talk about: Synthesis reactions Decomposition reactions.

Balancing Chemical Equations A chemical reaction is a process by which one set of chemicals is transformed into a new set of chemicals. A chemical equation.

Precipitation reactions These are processes in which an insoluble product (precipitate) is formed that drops out of solution, removing material, and therefore.

Redox Reactions. What is redox? Redox reactions involve a transfer of electrons. Oxidation – involves losing electrons (increase in oxidation number)

+ Types of Reactions Ch. 4 Part II. + Types of Chemical Reactions (3) Precipitation Reactions Acid-Base Reactions Oxidation-Reduction Reactions.

Types of Chemical Reactions & Solution Stoichiometry

1 Balancing Redox Reactions Chapter 20: Day 2. 2 Review of Terminology for Redox Reactions OXIDATION—loss of electron(s) by a species; increase in oxidation.

Chemical Reactions CHM 1010 PGCC Barbara Gage

Reactions in Aqueous Solution

Section 4.1 Water Soluble Compounds Strong Electrolytes Weak Electrolytes Non Electrolytes Strong acids And Strong Bases Example: HNO 3 H.

Chapter 19 Oxidation-Reduction Reactions. Section 1: Oxidation and Reduction Standard 3.g.: – Students know how to identify reactions that involve oxidation.

Principles & Modern Applications

Shiny Penny Experiment

Activity series Experiment # 15.

Oxidation-Reduction Chapter 16

OXIDATION AND REDUCTION REACTIONS CHAPTER 7. REDOX REACTIONS Redox reactions: - oxidation and reduction reactions that occurs simultaneously. Oxidation:

Redox Reactions.

Redox Reactions Learning Goal: I will understand what a ‘REDOX’ reaction is, and be able to illustrate half reactions, and identify what is being oxidized.

Oxidation Numbers & Redox Reactions How to Make Balancing Redox Reactions a Relatively Painless Process.

Chemistry 12 Unit 5. I.Oxidation – Reduction Reactions: Oxidation:A substance losing electrons. Reduction:A substance gaining electrons. eg:Al (s) in.

Chemical Reactions.

Quiz #4 Chemical Rxns and Safety 1.Why is it important to avoid eating in a chemistry lab? 2.What is the correct way to write the formula for Chlorine?

Exp. 16: Volumetric Analysis: Redox Titration Normality = eq wt of solute L solution Acid/bases: #eq = # H + or OH - ionized Redox reactions – transfer.

Chapter Menu Redox Reactions Section 19.1Section 19.1Oxidation and Reduction Section 19.2Section 19.2 Balancing Redox Equations Exit Click a hyperlink.

Objective: Determine the equivalence point. Equivalence point n OH - = n H + If 25.00mL of M NaOH is needed to react with mL of HCl. What is.

Redox Difficult but necessary. Obviously: Oxidation is adding oxygen 2H 2 + O 2  2H 2 O Reduction is removing oxygen 2FeO + C  2Fe + CO 2 But also oxidation.

Oxidation-Reduction Reactions. Oxidation and Reduction Oxidation-reduction reactions always occur simultaneoulsy. Redox Reactions Oxidation Loss of electrons.

Balancing Redox. Half Reaction Each redox reaction can be divided into two parts: one for oxidation, the other reduction These parts are called half-reactions.

C H E M I S T R Y Chapter 4 Reactions in Aqueous Solution.

Oxidation & Reduction IB Topics 9 & 19 AP Chapters ; 17.

Oxidation-Reduction Reactions Ch. 16. What is Oxidation? Oxygen is most abundant element on Earth Extremely reactive due to strong electronegativity Oxidation.

Types of Chemical Reactions 5 types of reactions.

Mullis1 Oxidation  When a substance loses electrons, it undergoes oxidation. Ca(s) + 2H + (aq)  Ca 2+ (aq) + H 2 (g)  Ca lost 2 electrons to the H +

Electrochemistry: Oxidation-Reduction Reactions Zn(s) + Cu +2 (aq)  Zn 2+ (aq) + Cu(s) loss of 2e - gaining to 2e - Zinc is oxidized - it goes up in.

Lab 4 Chemical reactions. A.Signs of a Chemical Reaction Evolution of heat and light Formation of a gas Formation of a precipitate Color change.

Chemistry NCEA L2 2.7 Redox 2013.

Balancing Redox Reactions from Half-Reactions

Electrochemistry Oxidation-reduction reactions. Review Ionic bonds : give and take of electrons (example NaCl) Ionic bonds : give and take of electrons.

Chemical Reactions. Describing Chemical Change Chemical reactions take place around you everyday Chemical reactions are expressed on paper as chemical.

Oxidation-Reduction (Redox) Reactions. Oxidation-Reduction Reactions  Electron transfer between ionic compounds, change in oxidation numbers  One compound.

Write and balance the equation and identify the reaction type for each of the following reactions: Potassium metal reacts with chlorine gas Zn metal reacts.

C H E M I S T R Y Chapter 4 Reactions in Aqueous Solution.

Balancing Redox Equations OBJECTIVE: Describe how oxidation numbers are used to identify, and balance reactions using Oxidation Numbers.

Exp 19A: Oxidation-Reduction Reactions Oxidation-Reduction (Redox) reactions –Net movement of electrons from one reactant to the other –Movement from reactant.

a. atoms are not created or destroyed in chemical reactions. (Atomic theory – Unit 3) b. The conservation of atoms: = # and type of atoms on the left.

CHAPTER 6 – CHEMICAL REACTIONS 5A-1 (of 34) EVIDENCE FOR CHEMICAL CHANGE 1)Color change 2)A solid forms 3)Bubbles are formed 4)A flame is produces 5)Heat.

20.3 Describing Redox Equations > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 20 Oxidation-Reduction Reactions.

Electrochemistry. In 1983, the US Mint decided that they could no longer afford making pennies out of pure copper. Zinc was much cheaper, and the chemists.

Problem 4.22 (b) Write ionic and net ionic equations for: K 3 PO 4 (aq) + Sr(NO 3 ) 2 (aq) 

Redox Reactions. Reduction Oxidation.

Electrochemistry #1.

Chemical Reaction Types

The Activity Series.

Purpose - Chemical Reactions II

PURPOSE To observe identify, and write balanced equations for precipitation reactions Page 374Pearson text.

Reactions in Aqueous Solution

Lesson 2 LT: I can predict the products of chemical reactions.

Balancing Redox Reactions using the ½ Reaction Method

Ionic Compounds Lab

Balancing Redox Reactions using the ½ Reaction Method

Presentation transcript:

Redox Reactions I. Oxidation & Reduction-_________-_________ ________, or _____ ________, are ________ in which ________ are __________ from one ____ to _______ ____ -when _______ reacts with _______, each ______ _____ ________ ___ _______ to each _______ _____

Redox Reactions I. Oxidation & Reduction-_________ is defined as the ____ of ________ from the _____ of a ________ -during its reaction with _______, ______ _____ ________: -_______ is ________ -during its reaction with _______, ________ _____ ________: -________ is _______ -_________ is defined as the ____ of ________ by the _____ of a ________

Redox Reactions I. Oxidation & Reduction-a substance which ________ another substance by ________ its ________ is called an ________ _____, which is also the substance that is _______ -a substance which _______ another substance by ______ ________ is called an ________ _____, which is also the substance that is ________ -________ _________ become _______ ________ and _______ _______ by the _______ _______ of ________; the more _____________ is considered to be _______ and the less _____________ is considered to be ________

Redox Reactions I. Oxidation & Reduction Identify each of the following changes as oxidation or reduction: Identify what is oxidized and what is reduced in each of the following:

Redox Reactions I. Oxidation & Reduction Identify the oxidizing agent and the reducing agent in each of the following reactions:

Redox Reactions I. Oxidation & Reduction Determine the oxidation number of the boldface element in each of the chemical formulas below:

Redox Reactions I. Oxidation & Reduction Determine the oxidation number of the boldface element in each of the polyatomic ions below:

Redox Reactions II. Balancing Redox Equations Use the oxidation-number method to balance the redox equation below:

Redox Reactions II. Balancing Redox Equations

5. If necessary, use the conventional method to balance the remainder of the equation. Use the oxidation-number method to balance the redox equations below:

Redox Reactions II. Balancing Redox Equations Use the oxidation-number method to balance the equation: The _____ ______ gains nearly ____ of its ___ from its _____ ______ _______ (_____) during the ____ ___ _______ of ______. The ______ each _______ _______ ___ of a _______ of __________ and ___________ __________

Redox Reactions II. Balancing Redox Equations While in _____ the _____ _______ uses a ___________ __________ _______ to ________, which involves ___________________ as the _________ and __________ _________ as the_______

Redox Reactions II. Balancing Redox Equations Use the oxidation-number method to balance the equation:

Redox Reactions II. Balancing Redox Equations Use the oxidation-number method to balance the following equations:

Redox Reactions II. Balancing Redox Equations A. Safety: 1. Hypothesis:How do you know if an oxidation-reductions reaction has occurred? 2. Prediction: 3. Gather Data: Copper(II) sulfate is mildly toxic, with an LD 50 = 300mg/kg. Avoid ingestion (don’t eat or drink it). Wash hands thoroughly with soap and water before leaving lab. Goggles mandatory. Copper(II) sulfate is an environmental hazard, being extremely toxic to aquatic organisms like algae. B. Procedure: 1. Use a piece of sandpaper to polish the end of an iron nail.

3. Gather Data: B. Procedure: 2. Add about 3 mL of 1.0 M CuSO 4 solution to a test tube. 3. Place the polished end of the nail in the CuSO 4 solution. Let stand and observe for about 10 minutes. Record your observations. ___________________________________ 4. Analyze Data: 1. What is the substance found clinging to the nail? _______ 2. What happened to the color of the CuSO 4 solution? _____ ______________________________________________ 3. Write the balanced chemical equation for the reaction you observed: ______________________________________ 4. What substance was oxidized? _____________________ 5. What substance was reduced? _____________________

Redox Reactions III. Half-Reactions-in the _________-_________ _______ ___ + ____ ______, each ____ _____ is ________ by ______ __ ________ -the _________ ____-_______ is: -each ________ ________ is _______ by _______ __ ________ -the _________ ____-_______ is:

Redox Reactions III. Half-Reactions-in the _________-_________ _______ ___ + _______ ________ + ___, each ______ _____ is ________ by ______ __ ________ -the _________ ____-_______ is: -each ______ ____ is _______ by _______ __ ________ -the _________ ____-_______ is:

Redox Reactions III. Half-Reactions Write the oxidation and reduction half-reactions for the following oxidation-reduction equations: Pd(NO 3 ) 2 (aq) Pb (s) +Pb(NO 3 ) 2 (aq) Pd (s) + SO 2 (g) KMnO 4 (aq) +MnSO 4 (aq) +K 2 SO 4 (aq)

Redox Reactions III. Half-Reactions Write the oxidation and reduction half-reactions for the following oxidation-reduction equations: NH 3 (g) PbO (s) +N 2 (g) Pb (s) +H 2 O (l) + I 2 (s) Na 2 S 2 O 3 (aq) +NaI (aq) +Na 2 S 2 O 4 (aq)

Redox Reactions III. Half-Reactions Write the oxidation and reduction half-reactions for the following oxidation-reduction equations: NO 2 (g) NaOH (aq) +NaNO 2 (aq) NaNO 3 (aq) +H 2 O (l) + Sn (s) HCl (aq) +H 2 (g) +SnCl 2 (aq)

Redox Reactions III. Half-Reactions Write the oxidation and reduction half-reactions for the following oxidation-reduction equations: HNO 3 (aq) H 3 PO 3 (aq) +H 3 PO 4 (aq) NO (g) +H 2 O (l) + KMnO 4 (aq) HCl (aq) +KCl (aq) MnCl 2 (aq) +H 2 O (l) +Cl 2 (g) +