1 / 27

Acids Lesson 3 Acid and Base Reactions

Acids Lesson 3 Acid and Base Reactions. Conductivity The conductivity of an acid is determined by the number of ions generated in a solution and is therefore a combination of both the strength and concentration of the acid. 1.0 M HCl is a better conductor than 0.10 M HCl

meris
Download Presentation

Acids Lesson 3 Acid and Base 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. Acids Lesson 3 Acid and Base Reactions

  2. Conductivity The conductivity of an acid is determined by the number of ions generated in a solution and is therefore a combination of both the strength and concentration of the acid. 1.0 M HClis a better conductor than 0.10 M HCl 1.0 M HIis a better conductor than 1.0 M HF. 1.0 M HFhas the same conductivity as 0.02 M HCl.

  3. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right side as a base. Acid, Base, orAmphiprotic PO43-

  4. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right side as a base. Acid, Base, orAmphiprotic PO43-Base can gain H+, cannot lose H+ HPO42-

  5. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right side as a base. Acid, Base, orAmphiprotic PO43-Base can gain H+, cannot lose H+ HPO42- Amphiproticcan gain H+and lose H+ H2PO4-

  6. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right side as a base. Acid, Base, orAmphiprotic PO43-Base can gain H+, cannot lose H+ HPO42- Amphiproticcan gain H+and lose H+ H2PO4- Amphiproticcan gain H+and lose H+ H3PO4

  7. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right side as a base. Acid, Base, orAmphiprotic PO43-Base can gain H+, cannot lose H+ HPO42- Amphiproticcan gain H+and lose H+ H2PO4- Amphiproticcan gain H+and lose H+ H3PO4 Acid cannot gain H+, can lose H+

  8. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right sideas a base. Acid, Base, orAmphiprotic CO32-

  9. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right sideas a base. Acid, Base, orAmphiprotic CO32-Base HCO3-

  10. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right sideas a base. Acid, Base, orAmphiprotic CO32-Base HCO3- Amphiprotic H2CO3

  11. Amphiprotic Chemical Species Amphiproticchemical species can act asacidsand donate protonsor bases and accept protons. They are listed both on the left sideof the table as an acid and the right sideas a base. Acid, Base, orAmphiprotic CO32-Base HCO3- Amphiprotic H2CO3 Acid

  12. In Chemistry 11 H2SO4 + 2KOH

  13. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l)

  14. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l) 2H+ + SO42-

  15. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l) 2H+ + SO42- + 2K+ + 2OH- 

  16. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l) 2H+ + SO42- + 2K+ + 2OH- 2K+ + SO42- +

  17. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l) 2H+ + SO42- + 2K+ + 2OH- 2K+ + SO42- + 2HOH(l)

  18. In Chemistry 11 H2SO4 + 2KOH K2SO4 + 2HOH(l) 2H+ + SO42- + 2K+ + 2OH- 2K+ + SO42- + 2HOH(l) H+ + OH- HOH(l) Use an arrow if you have a strong acid or a strong base! Strong acids, strong bases, and soluble salts are ionized!

  19. In Chemistry 12 H2C2O4 + 2KOH

  20. In Chemistry 12 H2C2O4 + 2KOH

  21. In Chemistry 12 H2C2O4 + 2KOH K2C2O4 + 2HOH(l)

  22. In Chemistry 12 H2C2O4 + 2KOH K2C2O4 + 2HOH(l) H2C2O4 + 2K+ + 2OH- 2K+ + C2O42- + 2HOH(l)

  23. In Chemistry 12 H2C2O4 + 2KOH K2C2O4 + 2HOH(l) H2C2O4 + 2K+ + 2OH- 2K+ + C2O42- + 2HOH(l) H2C2O4 + 2OH- C2O42- + 2HOH(l) The weak acid or base does not dissociate! Break up strong acids, strong bases, and soluble salts!

  24. Conductivity Good Conductors Strong Acids Strong Bases Soluble Salts HCl NaOH KCl Weak Conductors Weak Acids Weak Bases Low Solubility Salts HF Zn(OH)2 AgCl Nonconductors Molecular covalent C12H22O11

  25. In Chemistry 12 HC2O4- + HCO3- H+ C2O42- + H2CO3 ⇋ Acid Base Base Acid Weakacidsand weak basesreact but do not go to completion (⇋) The higher one on the acid side of the chart will be the acid and donate a proton. Label all acids and bases- note H2C2O4 donates in the reverse reaction The acid on the left HC2O4- is stronger than H2CO3 so the other side or the products are favoured. H+

  26. There are more products at equilibrium

  27. Complete the reaction HSO4- + HSO3- H+ ⇋ ⇋ SO42- + H2SO3 Acid Base Base Acid ReactantsareFavouredbecauseH2SO3is a stronger acid than HSO4- The stronger acid H2SO3more successfully donates its proton making more reactants. H+

More Related