UNIT 16:ACIDS AND BASESUNIT 18:ENERGY CHANGES AND ENERGY PROFILE DIAGRAM

UNIT 17:REDUCTION AND OXIDATION REACTION

  • UNIT 17:REDUCTION AND OXIDATION REACTION

     UNIT17: REDUCTION AND OXIDATION REACTION
    Key unit competency: Explain the concept of reduction and oxidation and balance 
    equations for redox reactions
    Learning Objectives
    By the end of this unit, students should be able to
    • Explain the redox reactions in terms of electron transfer and changes in 
    oxidation state (number).
    • Explain the concept of disproportionation 
    • Differentiate the reducing agent from the oxidizing agent in a redox 
    reaction.
    • Work out the oxidation numbers of elements in the compounds. 
    • Perform simple displacement reactions to order elements in terms of 
    oxidizing or reducing ability. 
    • Apply half-reaction method to balance redox reactions. 

    • Deduce balanced equations for redox reactions from relevant half equations. 

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    17.1. Definition of electrochemistry and its relationship with 
    redox reactions. 
    Activity 17.1
    1. Use examples to differentiate redox reactions from other chemical reactions
    2. Explain this statement: “Electrochemistry is a chapter of chemistry that studies 
    the chemical reactions that produce electricity”
    Electrochemistry is defined as the study of the interchange of chemical and Electrical 
    energy. It is primarily concerned with two processes that involve oxidation–reduction 
    reactions: the generation of an electric current from a spontaneous chemicalreaction 
    and, the opposite process, the use of a current to produce chemical change.
    Electrochemistry is important in other less obvious ways. For example, the corrosion 
    of iron, which has tremendous economic implications, is an electrochemical process. 
    In addition, many important industrial materials such as aluminum, chlorine, and 
    sodium hydroxide are prepared by electrolytic processes.

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    Hence a redox reaction is a combination of two half-reactions: an oxidation halfreaction and a reduction half-reaction. Nevertheless, one half-reaction cannot exist 
    without the other, because electrons lost in the oxidation process must be captured 
    in the reduction process, this explains why we talk of oxidation-reduction or redox 
    reaction. 
    The characteristic of a redox reaction is that there is exchange or transfer of electrons 
    between chemical species participating in the reaction.
    We can compare this to the emigration-immigration movement: when a person 
    leaves a country, emigration for that country, he/she must enter another country, 
    immigration for that country and this constitutes an emigration-immigration 
    movement.

    We notice that any chemical species whose oxidation state increases is oxidized: 

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    1. Aqueous copper (II) ion reacts with aqueous iodide ion to yield solid copper (I) 
    iodide and aqueous iodine. 
    a. Write the net ionic equation, 
    b. Assign oxidation numbers to all species present, and 

    c. Identify the oxidizing and reducing agents.

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    The oxidation number of an atom is the apparent or real charge that the atom has 
    when all bonds between atoms of different elements are assumed to be ionic. By 
    comparing the oxidation number of an element or chemical species before and 
    after reaction, we can tell whether the atom has gained or lost electrons. Note that 
    oxidation numbers don’t necessarily imply ionic charges; they are just a convenient 

    device to help keep track of electrons during redox reactions.

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    17.5. Balancing of redox equations

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    3. To the second portion add a few drops of hydrogen peroxide followed by one 
    or two drops of dilute surphuric acid and warm gently. Allow the solution to 
    cool (or cool it under running tap water). To the cold solution add drop wise 2M 
    NaOH until there is no further change. Record your observations. Add dilute 
    sulphuric acid to the resultant product and note down your observations. Rinse 
    the test tube thoroughly
    4. To the third portion, add about 1 cm3
     of dilute hydrogen peroxide solution followed by one or two drops of dilute sulphuric acid. Warm gently and test the 
    gas produced with a glowing splint. Allow the solution to cool (or cool it using 
    running tap water).To the cold solution add ammonia solution drop wise until 
    no further change. Compare the product formed when ammonia solution to 

    that obtained when sodium hydroxide was used.

    Study Questions 
    1. Name the products formed when dilute sulphuric acid reacts with iron powder. 
    Write a balanced formula equation for the reaction
    2. When dilute sulphuric acid reacts with iron powder, iron atoms are oxidized and 
    hydrogen ions are reduced. Write a balanced 
    a) oxidation half-equation
    b) reduction half-equation and 
    c) overall redox equations for the reaction between iron and sulphuric acid
    3. What is the effect of adding a hydrogen peroxide in step 4? 
    4. What will be the effect of adding concentrated nitric acid to any iron salt? 
    Explain why concentrated nitric acid does not react with pure iron metal
    17.5.1. Rules for balancing redox reactions
    The Half-Reaction Method for Balancing Oxidation–Reduction Reactions in 
    Aqueous Solutions
    For oxidation–reduction reactions that occur in aqueous solution, it is useful to 
    separate the reaction into two half-reactions: one involving oxidation reaction and 
    the other involving reduction reaction. Then after balancing those half reactions, 
    find the overall oxidation-reduction (redox) reaction by combining the two halfreactions. 
    For example, consider the unbalanced equation for the oxidation– reduction 
    reaction between cerium(IV) ion and tin(II) ion:
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    2. Place the test tubes in a 400 mL beaker that is about 1/3 full of boiling water. 
    After
    a few minutes, look for evidence of reaction. Note any changes. Did some metals 
    that didn’t react with cold water, react with hot water? 
    3. Place a small sample of each metal in test tubes containing 5 mL of 1.0 mol/L 
    hydrochloric acid, HCl. Watch for evidence of reaction. Note any changes
    4. Place a small sample of magnesium ribbon in test tube containing 5 mL of 1M 
    copper (II) sulphate. Watch for evidence of reaction and note any changes
    Study questions
    1) Considering sodium, magnesium, zinc, and copper: 
    Arrange the metals in order of increasing reactivity (from least reactive to most reactive)
    2) Which of the four metals are reacting with cold water? For those metals that did 
    react, write a balanced symbolic equation.
    3) Which of the four metals are reacting with hot water? For those metals that did 
    react, write a balanced symbolic equation. 
    4) Which of the four metals are reacting with the hydrochloric acid? For those 
    metals that did react, write a balanced symbolic equation. 
    5) Which metal did not react with either water or hydrochloric acid?
    6) Which of the four metals would be suitable for making saucepans? Explain why 
    the others are not.
    7. Describe what you would see if you dropped a piece of magnesium ribbon into 
    some copper (II) sulphate solution in a test tube. Write a chemical equation for 
    the reaction.
    The reactivity series is a series of metals, in order of reactivity, as reducing agents, 
    from highest to lowest reducing agent. It is used to determine the products of single 
    displacement reactions, whereby metal A will displace another metal B in a solution 
    if A is higher in the series. Although hydrogen is not a metal, it is included in the 
    reactivity series for comparison (Table 17.2).
    When a metal is placed in a solution of another metal salt, and if the metal is more 
    active than the metal in the salt, the more active metal displaces the other metal 
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    17.7. End unit assessment
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    b) Write balanced equations for each reaction that took place. 
    18. Sulfur dioxide reacts with water to form sulfite ion. Is this a redox reaction? 
    Justify your answer.
    19. In each of the following balanced redox equations, identify:
    i) the species oxidized and their new oxidation numbers
    (ii) the species reduced and their new oxidation numbers.
    (iii) the reducing agent

    (iv) the oxidizing agent

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    i) copper + chromium sulfate 
    ii) magnesium + chromium sulfate 
    iii) chromium + copper sulfate 

    d. Compare the reactivity of chromium with those of iron and zinc

    UNIT 16:ACIDS AND BASESUNIT 18:ENERGY CHANGES AND ENERGY PROFILE DIAGRAM