1 / 36

SCH4U Unit #2: EQUILIBRIUM

SCH4U Unit #2: EQUILIBRIUM . Ms. Cornacchione Mon Mar 24 th 2014. Unit #2: Acid/Base Equilibrium TOPICS. Bronsted Lowry Acids & Bases (8.1) Strong and Weak Acids & Bases (8.2) Acid Calculations (8.4) Base Calculations (8.5) Acid-Base Properties of Salts Acid-Base Titration

farhani
Télécharger la présentation

SCH4U Unit #2: EQUILIBRIUM

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. SCH4UUnit #2: EQUILIBRIUM Ms. Cornacchione Mon Mar 24th2014

  2. Unit #2: Acid/Base EquilibriumTOPICS • Bronsted Lowry Acids & Bases (8.1) • Strong and Weak Acids & Bases (8.2) • Acid Calculations (8.4) • Base Calculations (8.5) • Acid-Base Properties of Salts • Acid-Base Titration • Buffer Systems

  3. Base Calculations • Strong bases (ionize completely) pH + pOH = 14 • Weak bases (ionize partially) • Must consider EQM and Kb, to calculate pOH

  4. EXAMPLES – Calc [H+], [OH-] for Strong Base

  5. EXAMPLES – pH for a Strong Base

  6. EXAMPLES– pH for Weak Base

  7. Unit #2: Acid/Base EquilibriumTOPICS • Bronsted Lowry Acids & Bases • Strong and Weak Acids & Bases • Acid Calculations • Base Calculations • Acid-Base Properties of Salts • Acid-Base Titration • Buffer Systems

  8. Acid-Base Properties of Salt Solutions • Many salts are highly soluble in water and easily dissociate into ions that may or may not change the pH of the solution (acidic, basic, or neutral) • We must consider how well each ion acts as an acid or a base (the stronger one wins!)

  9. Acid-Base Properties of Salts

  10. Salts That Produce Neutral Solutions

  11. Salts That Produce Basic Solutions

  12. Salts That ProduceAcidicSolutions

  13. Acid-Base Properties of Salts

  14. Hydrolysis of Amphiprotic Ions

  15. Hydrolysis of Metallic and Non-metallic Oxides • Metallic • Non-metallic

  16. EXAMPLE

  17. EXAMPLE

  18. EXAMPLE – Acidity of a Metallic Oxide Solution

  19. Practice Makes Perfect • Complete all Section 8.6 Practice Problems • Do Page 539 Q#2-5

  20. SCH4UUnit #2: Acid-Base EQM(Titrations) Ms. Cornacchione Mon Mar 24th 2014

  21. Unit #2: Acid/Base EquilibriumTOPICS • Bronsted Lowry Acids & Bases • Strong and Weak Acids & Bases • Acid Calculations • Base Calculations • Acid-Base Properties of Salts • Acid-Base Titration • Buffer Systems

  22. Titration Introduction • Titration is the chemical analysis involving the addition of known volume & concentration of titrantto a known volume but known concentration of sample • Acid-Base titration – reaction between an acid and base resulting in water and salt (neutralization) • An indicator is used to determine the endpointof the reaction • At the end point, the indicator will change colour

  23. Titration Introduction • The equivalence point, or stoichiometric point, occurs when equal moles of H+ and OH- ions have been reacted to produce water • The equivalence point is not always equal to the end point and does not always occur at a pH of 7 • When choosing an indicator for titration, choose an indicator that will change when the equivalence point is reached

  24. Titration Introduction

  25. Titration Terminology • Standard Solution • Titrant • Equivalence Point • End Point • pH Curve

  26. Titration Introduction

  27. Titrating Strong Acid with Strong Base • Equivalence point will occur at a pH of 7 • Use an indicator that will change around 7 • Calculations – simple limiting factor problem since there is 100% ionization

  28. Titrating Strong Acid with StrongBase (and vice versa)

  29. Titrating a Strong Acid with a Strong Base Go to Page 541 • Stage 1 – Before titrant added • Stage 2 - After some titrant added (10mL) • Stage 3 – More titrant (50mL) • Stage 4 – After 100mL Titrant – EQUIV POINT • Stage 5 – After 150mL Titrant

  30. Titrating a Strong Acid with a Strong Base

  31. Titrating a Strong Acid with a Strong Base

  32. Titrating a Weak Acid with a Strong Base • Equivalence point will occur at pH > 7 • Use an indicator that will change above 7 • Calculations – Use an ICE Table! (must consider the equilibrium of the weak acid)

  33. Titrating a Strong acid with a Weak Base • Equivalence point will occur at pH < 7 • Use an indicator that will change below 7 • Calculations – Use an ICE Table! (must consider the equilibrium of the weak base)

  34. Practice Makes Perfect! • Complete Practice Problem Pg 547 #1-2

More Related