1 / 26

Single Displacement Reactions

Single Displacement Reactions. Learning Goals. Students will be able to: Identify single displacement reactions Predict products for and balance single displacement reactions Determine which single displacement reactions actually occur. Success Criteria. Students will be able to:

kiri
Download Presentation

Single Displacement Reactions

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Single Displacement Reactions

  2. Learning Goals Students will be able to: • Identify single displacement reactions • Predict products for and balance single displacement reactions • Determine which single displacement reactions actually occur

  3. Success Criteria • Students will be able to: • Use the A + BC ⇒ B + AC symbolic formula to identify a single displacement reaction and to determine products. • Use the Activity Charts to determine which single displacement reactions will proceed forward

  4. Activity Observe the following reaction: • Copper + silver nitrate  • What do you observe? • What is the precipitate? • What do you notice about the solution? • Write a complete, balanced equation for this reaction. • Cu + AgNO3 Ag + Cu(NO3)2

  5. Single Displacement Reaction • Is a reaction in which one element takes the place of another element in a compound • The products of a single displacement reaction are a new element and a new compound. • Single Displacement reactions occur between ionic compounds

  6. Types of Single Displacement Reactions • A metal displacing another metal from an ionic compound • A and B represent metals, C is a non-metal C + C B  + B A A

  7. Types of Single Displacement Reactions • A non-metal displacing another non-metal from an ionic compound • A represents a metal, B and C non-metals C B + C B  + A A

  8. Dancing Analogy • Single displacement is similar to one man cutting in on another man at the dance At the start, dancer A is by himself and dancer B is dancing with dancer C. Dancer A “cuts in” on dancer B. In the end, dancer B is by himself and dancer A is dancing with dancer C

  9. Writing the Reaction • Magnesium metal + lead (II) nitrate solution • List your observations • Write a chemical equation

  10. Now try these ones! • zinc + lead (II) nitrate  • Zn + Pb(NO3)2 Pb + Zn(NO3)2 • copper (II) nitrate + magnesium  • Cu(NO3)2 + Mg  Mg(NO3)2+ Cu • *Lead + copper (II)nitrate  • Pb + Cu(NO3)2 Cu + Pb(NO3)2(Pb2+ is more common) • *Iron + sulfuric acid  • Fe + H2SO4 H2+ Fe2(SO4)3(Fe3+ is more common) • *remember to use the correct ion for multivalent metals. Your periodic table will tell you which is the more common “oxidation state”. • Find these metals and solutions and watch them react!

  11. How do we determine which elements can displace another? • Empirical evidence gathered through experimentation Figure 1: (a) In the activity series of metals, each metal will displace the metal listed below it. Hydrogen is usually included in the series, even though it is not a metal, because hydrogen can form positive ions, just like the metal (b) The halogens can also be ordered in an activity series (Nelson Chemistry 11 – p.126 Figure 3 and p. 127 Figure 4)

  12. Yesterday, you were given a more detailed activity series.

  13. For a reaction to occur, the element replacing the element within a compound MUST be more reactive • The lower the electronegativity of a metal element the more reactive it should be. We notice that the opposite is true for the halogens(higher electronegativity = more reactive). WHY?? Example 1: 2 Al(s) + Fe2O3(s)  Example 2: Zn(s) + Mg(NO3)2(aq)  2 Fe(s) + Al2O3(s) NO REACTION

  14. Is gold reactive??

  15. Which reaction will move forward? 1) aluminum + copper (II) nitrate ⇒ • Aluminum is higher on the activity series than copper, therefore a reaction takes place • 2 Al + 3 Cu(NO3)2 ⇒ 3 Cu + 2 Al(NO3)3 • We should see a coating of copper on the aluminum and the solution should turn from blue to colourless 2) iron + aluminum nitrate ⇒ • Iron is lower on the activity series than aluminum, therefore no reaction takes place • Fe + Al(NO3)3⇒ NR • The piece of iron should remain unaffected by the solution

  16. Which reaction will move forward? 3) magnesium + hydrochloric acid ⇒ • Magnesium is higher on the activity series than copper, therefore a reaction takes place. • Mg + 2HCl ⇒ H2+ MgCl2 • We should see bubbles of gas as hydrogen gas is produced and the strip of magnesium slowly consumed. The solution remains colourless. 4) copper + hydrochloric acid ⇒ • copper is lower on the activity series than hydrogen, therefore no reaction takes place. • Cu + HCl⇒ NR • The piece of copper should remain unaffected by the acid

  17. Which reaction will move forward? 5) tin + nickel (II) sulfate • tin is lower on the activity series than nickel, therefore no reaction takes place. • Sn+ NiSO4⇒ NR • The piece of tin should remain unaffected by the solution. 6) magnesium + iron (III) chloride • magnesium is higher on the activity series than iron, therefore a reaction takes place. • 3 Mg + 2FeCl3⇒ 2 Fe + 3 MgCl2 • We should see iron precipitate onto the magnesium. The solution should change from reddish-brown to colourless.

  18. Non-metals switching • A + BC ⇒ C + BA • Does a reaction occur? • Use the Non Metal (Halogen) Activity Chart • If so, predict the products. Balance the equation if necessary. Br2(aq) + NaI(aq) 

  19. Corrosion and Protection • Can protect against corrosion by coating iron in a less reactive metal (example copper) • The statue of liberty was made out of iron, covered with insulation, and then coated with copper • Over time, the copper oxidized and the insulation wore away in places. • The more reactive iron then rusted when it came into contact with the copper (II) oxide. WHY?? The iron had to be replaced with stainless steel.

  20. The Galvanizing Process A more reactive metal (zinc) is used to coat the iron. The zinc quickly reacts with oxygen to form zinc oxide (hard and insoluble). The zinc acts as a barrier to protect the iron underneath.

  21. Galvanized Steel • Much of the world’s steel is galvanized for rust protection. • Stainless steel contains a significant portion of nickel and chromium

  22. Boats – Sacrificial Anode • Water, especially salt-water, will corrode boat hulls. • So boaters place a strip of a more active metal on the surface of the boat – as a result the strip will corrode first and protect the rest of the hull • The strip is called a sacrificial anode because it is sacrificed in defense of the rest of the hull

  23. Mining • Metals are often removed from rock by using strong acid solutions. • Rocks are crushed into a fine slurry and added to tanks of acid. • The acids dissolve the metals from minerals and rocks. • The acids eventually transform into metal-rich solutions • How could you remove the metals from these solutions? (Hint: think about what you know about the activity series)

  24. Removing copper from copper ore • Sheets of a metal higher on the activity series than Cu are placed in the copper solution. An electrical current speeds up the procedure Copper solution Sheets of copper

  25. Review • A single displacement reaction is a reaction where one element takes the place of another element in a compound. • Use the activity series to determine if a reaction will occur.

  26. Practice • Complete the worksheet: Single Displacement Reactions Practice • Answer #1, 3, 5, 6 on pg. 128 of the textbook.

More Related