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Section 2: Reactions of Acids with Bases

Section 2: Reactions of Acids with Bases. Preview Key Ideas Bellringer Acid-Base Reaction Neutralization Reaction Titration Graphing Skills Salts. Key Ideas. What is a neutralization reaction? To a chemist, what exactly is a salt?. Bellringer.

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Section 2: Reactions of Acids with Bases

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  1. Section 2: Reactions of Acids with Bases Preview • Key Ideas • Bellringer • Acid-Base Reaction • Neutralization Reaction • Titration • Graphing Skills • Salts

  2. Key Ideas • What is a neutralization reaction? • To a chemist, what exactly is a salt?

  3. Bellringer You have learned that acids and bases form ions in solution. The characteristic ions are the hydronium, or H3O+, ion for acids and the hydroxide, or OH–, ion for bases. Below are several reactions between acids and bases. From what you know about reactions, acids, and bases, predict what the products of the following reactions will be. 1. HCl + NaOH ______ + H2O 2. HCl + KOH  KCl + ______ 3. HNO3 + KOH ______ + ______ 4. H2SO4 + Ca(OH)2______ + ______ 5. HBr + AgOH ______ + ______ 6. HClO4 + NaOH ______ + ______ 7. 2HNO3 + Ba(OH)2______ + ______ 8. H2SO4 + 2NH4OH ______ + ______

  4. SPS6d Compare and contrast the components and properties of acids and bases.

  5. EQ: What are the components, properties and some common examples of acids and bases?

  6. Acid-Base Reactions • What is a neutralization reaction?

  7. 9-2-1 Acid-Base Reactions A neutralization reaction is the reaction between an acid and a base.

  8. 9-2-2 Acid-Base Reactions • neutralization reaction: the reaction of the ions that characterize acids and the ions that characterize bases to form water molecules and a salt

  9. 9-2-4 Acid-Base Reactions, continued • A strong acid ionizes completely in solution. HCl + H2O  Cl– + H3O+

  10. 9-2-5 Acid-Base Reactions, continued • A strong base ionizes completely in solution. NaOH  Na+ + OH–

  11. 9-2-6 Acid-Base Reactions, continued • The total neutralization reaction is the following: Cl– + H3O+ + Na+ + OH– Na+ + Cl– + 2H2O

  12. 9-2-7 Acid-Base Reactions, continued • salt: an ionic compound that forms when a metal atom or a positive radical replaces the hydrogen of an acid

  13. 9-2-8 Acid-Base Reactions, continued • Neutralization reactions form water and a salt.

  14. 9-2-9 Acid-Base Reactions, continued • Neutral solutions are not always formed.

  15. 9-2-10 Acid-Base Reactions, continued The final pH of the solution depends on the amounts and strengths of acid and base that are combined.

  16. Neutralization Reaction

  17. Salts • To a chemist, what exactly is a salt?

  18. 9-2-11 Salts • To a chemist, a salt can be almost any combination of cations and anions, except hydroxides and oxides, which are bases.

  19. 9-2-12 Salts • Salts have many uses.

  20. 9-2-13 Salts • Salts are important in the body.

  21. 9-2-14 Salts, continued Some Common Salts

  22. Acid-Base Reactions, continued • Titrations are used to determine concentration. • titration:the process of adding carefully measured amounts of one solution to another solution • equivalence point: the point when the original amount of acid equals the original amount of base added • strong acid with a strong base, equivalence point = pH 7 • strong acid with a weak base, equivalence point < pH 7 • strong base with a weak acid, equivalence point > pH 7

  23. Titration

  24. Graphing Skills Interpreting Titration Curves Hydrochloric acid, HCl, was titrated with potassium hydroxide, KOH. How many moles of KOH were added to reach the equivalence point?

  25. Graphing Skills, continued 1. Locate the equivalence point on the graph. A strong acid was titrated with a strong base. The y-axis indicates the pH, so the equivalence point on the titration curve has a y-value of 7. 2. Read the moles of KOH from the graph. The x-axis indicates how many moles of KOH were added. At pH = 7, 0.4 mol of KOH was added.

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