1 / 24

CHAPTER 13

CHAPTER 13. Acids and Bases. 13.2 The pH Scale. Soil at a high pH makes hydrangea flowers pink. Soil at a low pH makes hydrangea flowers blue. pH range. pH can be less than 0 for stronger acids greater than 14 for stronger bases. Water is neutral: [H + ] = 1 x 10 -7 M and pH = 7.

koko
Download Presentation

CHAPTER 13

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. CHAPTER 13 Acids and Bases 13.2 The pH Scale

  2. Soil at a high pH makes hydrangea flowers pink Soil at a low pH makes hydrangea flowers blue

  3. pH range pH can be less than 0for stronger acids greater than 14for stronger bases

  4. Water is neutral: [H+] = 1 x 10-7M andpH = 7 pH and [H+] pHdoesn’t just tell us if a solution is neutral, an acid or a base It also tells us: the concentration of H+ ions in the solution in moles/L

  5. Water is neutral: [H+] = 1 x 10-7 MandpH = 7 pH and [H+] pHdoesn’t just tell us if a solution is neutral, an acid or a base It also tells us: the concentration of H+ ions in the solution in moles/L which is expressed as a power of 10

  6. Power of 10 A negative exponent means the number is less than 1

  7. Water is neutral: [H+] = 1 x 10-7 MandpH = 7 pH = –log[H+] pH and [H+] The number 7 is the logarithm of 0.0000001 Definition of pH: Do not forget the “–” sign! logarithm: in base 10, a number A derived from another number B such that 10B=A.

  8. Water is neutral: [H+] = 1 x 10-7 MandpH = 7 pH = –log[H+] pH and [H+] The number 7 is the logarithm of 0.0000001 Definition of pH: Examples: [H+] = 1 M pH = –log(1) = 0 [H+] = 0.05 M pH = –log(0.05) = 1.3

  9. Water is neutral: [H+] = 1 x 10-7 MandpH = 7 pH = –log[H+] pH and [H+] The number 7 is the logarithm of 0.0000001 Definition of pH: Examples: Check: [H+] = 1 M pH = –log(1) = 0 [H+] = 10–pH = 10–0 = 1 M [H+] = 0.05 M pH = –log(0.05) = 1.3 [H+] = 10–pH = 10–1.3 = 0.05 M

  10. pH and [H+] A solution of acetic acid (HCH3O2) has an H+ concentration of 5 x 10–5 M. What is the pH of the solution?

  11. pH and [H+] A solution of acetic acid (HCH3O2) has an H+ concentration of 5 x 10–5 M. What is the pH of the solution? Asked: pH of a solution Given: [H+] = 5 x 10–5 M Relationships: pH = –log[H+]

  12. pH and [H+] A solution of acetic acid (HCH3O2) has an H+ concentration of 5 x 10–5 M. What is the pH of the solution? Asked: pH of a solution Given: [H+] = 5 x 10–5 M Relationships: pH = –log[H+] Solve:pH = –log[H+] pH = –log(5 x 10–5) pH = 4.3 Answer:This solution has a pH of 4.3, a relatively weak acid.

  13. pH and [H+] A solution of nitric acid (HNO3) has a pH of 3. What will the pH be if you add 10 mL of the solution to 90 mL of pure water?

  14. pH and [H+] A solution of nitric acid (HNO3) has a pH of 3. What will the pH be if you add 10 mL of the solution to 90 mL of pure water? Asked:pH of the new solution Given: old pH = 3 100 mL of the new solution contains 10 mL of the old solution Relationships: A pH value is a power of 10. A change in 1 pH unit means the concentration changes by a factor of 10.

  15. pH and [H+] A solution of nitric acid (HNO3) has a pH of 3. What will the pH be if you add 10 mL of the solution to 90 mL of pure water? Asked: pH of the new solution Given: old pH = 3 100 mL of the new solution contains 10 mL of the old solution Relationships: A pH value is a power of 10. A change in 1 pH unit means the concentration changes by a factor of 10. Solve: Diluting an acidic solution means the pH increases (fewer H+) The new pH is 4 (not 2). Answer: The new solution has a pH of 4.

  16. H2O(l) H+(aq) + OH–(aq) pH for bases Dissociation of water: [H+] and [OH–] are related

  17. pH for bases Find the pH of a 0.012 M sodium hydroxide (NaOH) solution.

  18. pH for bases Find the pH of a 0.012 M sodium hydroxide (NaOH) solution. Asked:pH of the solution Given: NaOH is a strong base that dissociates 100% in aqueous solution [OH–] = 0.012 M Relationships: pH = 14 + log[OH–]

  19. pH for bases Find the pH of a 0.012 M sodium hydroxide (NaOH) solution. Asked: pH of the solution Given: NaOH is a strong base that dissociates 100% in aqueous solution [OH–] = 0.012 M Relationships: pH = 14 + log[OH–] Solve: pH = 14 + log(0.012) = 14.00 – 1.92 = 12.08 Answer: The solution has a pH of 12.08 and is a strong base.

  20. Measuring pH You can’t measure pH by just looking at a solution, or measuring its density or temperature, but you can measure pH indirectly by: - performing a chemical reaction with a solution of known pH

  21. The color of red cabbage juice at different pH Measuring pH You can’t measure pH by just looking at a solution, or measuring its density or temperature, but you can measure pH indirectly by: - performing a chemical reaction with a solution of known pH - using a chemical that changes color at different pH values (pH indicators)

  22. Measuring pH You can’t measure pH by just looking at a solution, or measuring its density or temperature, but you can measure pH indirectly by: - performing a chemical reaction with a solution of known pH - using a chemical that changes color at different pH values (pH indicators)

  23. Measuring pH You can’t measure pH by just looking at a solution, or measuring its density or temperature, but you can measure pH indirectly by: - performing a chemical reaction with a solution of known pH - using a chemical that changes color at different pH values (pH indicators) - measuring the electrical properties of the solution a pH meter Acids and bases conduct electricity pH and conductivity (flow of electricity) are related

  24. Most acids and bases have a pH between 0 and 14 pH = –log[H+] Finding the pH in acids: Finding the pH in bases: pH = 14 + log[OH–] Measuring the pH involves indirect methods

More Related