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H+ Ion 6.0. Day 2  SWBAT utilize experimental data to illustrate and explain the pH Scale to characterize acidic and basic solutions  SWBAT compare.

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Presentation on theme: "H+ Ion 6.0. Day 2  SWBAT utilize experimental data to illustrate and explain the pH Scale to characterize acidic and basic solutions  SWBAT compare."— Presentation transcript:

1 H+ Ion 6.0

2 Day 2

3  SWBAT utilize experimental data to illustrate and explain the pH Scale to characterize acidic and basic solutions  SWBAT compare and contrast the strengths of various common acids and bases.

4 Today we will be covering the following topics 1.Acid Base Theory 2.Arrhenius Acids 3.Arrhenius Bases 4.Dissociation of Water 5.Calculating pH 6.H+ concentration

5 Acid Base Theory:  Acids are substances which produce hydrogen ions in solution.  Bases are substances which produce hydroxide ions in solution.

6 Arrhenius Acids: a substance that when added to water increases the number of H+ ions in the water. Example: HCl (hydrochloric acid)

7 Arrhenius Bases: a substance that when added to water increases the number of OH- ions in the water. Example: NaOH (Sodium Hydroxide)

8 Example of what happens to acids and bases when placed in water

9 -Dissociation of Water: Water has the ability to split into an H+ ion and an OH- ion. -Water can act like an acid when it donates a H+ ion -Water can act like a base by accepting an OH- ion.

10 1. HCl - hydrochloric acid 2. HNO 3 - nitric acid 3. H 2 SO 4 - sulfuric acid 4. HBr - hydrobromic acid 5. HI - hydroiodic acid 6. HClO 4 - perchloric acid

11 1. LiOH - lithium hydroxide 2. NaOH - sodium hydroxide 3. KOH - potassium hydroxide 4. RbOH - rubidium hydroxide 5. CsOH - cesium hydroxide

12  As the hydrogen ion concentration INCREASES the pH DECREASES  A change of 1 pH unit means the hydrogen ion concentration changed by a factor of 10

13 For example, if one solution has a pH of 1 and a second solution has a pH of 2, the first solution is not twice as acidic as the second—the hydrogen ion concentration increased by a factor of ___________. 10

14 Formula: [H + ] = 10 -pH My Example: Find [H+] if pH = 8.5

15 Calculate the hydrogen ion concentration of a solution with a pH of 4.5 Answer 10 -4.5

16 Calculate the hydrogen ion concentration of a solution with a pH of 6.8 Answer 10 -6.8

17 Calculate the hydrogen ion concentration of a solution with a pH of 12.2 Answer 10 -12.2

18 Complete the worksheet it will be stamped &collected TODAY Work SMART

19 1.Give an example of an Arrhenius acid? 2.Give an example of an Arrhenius base? 3.As the pH decreases, the hydrogen ion concentration ___________. 4.What is the H+ concentration of a solution with a pH of 3? 5.Solution A has a pH of 3 and solution Z has a pH of 6. How many times greater is the H+ concentration in solution A than the H+ concentration in solution Z? a.100b.2c.1000d. 3

20 1.Give an example of an Arrhenius acid? HCl 2.Give an example of an Arrhenius base? NaOH 3.As the pH decreases, the hydrogen ion concentration increases. 4.What is the H+ concentration of a solution with a pH of 3? 10 -3 5.Solution A has a pH of 3 and solution Z has a pH of 6. How many times greater is the H+ concentration in solution A than the H+ concentration in solution Z? a.100b.2c.1000d. 3

21 STUDY YOUR NOTES FROM THIS WEEK IN PREPARATION FOR A POSSIBLE QUIZ NEXT WEEK

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