1 / 42

Acids and Bases

Acids and Bases. Identifying Acids and Bases. contains H+ ions as the cation, with and other element as the anion. H 2 SO 4 HI. Acids Acid (anhydrides) Bases Base (anhydrides) Salts. Non-metal oxide. P 2 O 5. Contains OH- as the anion Combined with a cation. Ca(OH) 2. Al 2 O 3.

shanta
Download Presentation

Acids and Bases

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 and Bases

  2. Identifying Acids and Bases contains H+ ions as the cation, with and other element as the anion H2SO4 HI • Acids • Acid (anhydrides) • Bases • Base (anhydrides) • Salts Non-metal oxide P2O5 Contains OH- as the anion Combined with a cation Ca(OH)2 Al2O3 A metal with oxygen Ionic compound Formed from a cation and an anion Metal and non-metal Mg F2 KCl LiBr

  3. Acid / Base Chemistry • Hydrogen ion concentration = [H+] • Hydroxide ion concentration = [OH-] • Pure H20 – neutral substance – • ph=7 and [H+]=[OH-] • H2O will self-dissociate • H20 > H+ + OH- • Note: the number of H2O molecules that will self dissociate is very small; only 2 molecules per a billion, therefore [H2O] is unchanged.

  4. Acid / Base Chemistry • Kw- is the ion product constant for water • Kw= 1.0 x 10-14M2 Kw= [H+] [OH-] FOR H2O:Kw= [1.0 x 10-7M][1.0 x 10-7M] - there is an indirect relationship between [H+] and [OH-]

  5. Acid / Base Chemistry • Calculate [OH-] if [H+] is 1.0 x 10-2M • Kw= [H+] [OH-] • [OH-]= Kw = 1.0 x 10-14M2 • [H+] 1.0 x 10-2M • [OH-]= 1.0 X 10 –12M

  6. Acid / Base Chemistry • Calculate [H+] if [OH-] is 6.5 x 10-11M • Kw= [H+] [OH-] • [H+]= Kw = 1.0 x 10-14M2 [OH-] 6.5 x 10-11M • [H+]= • [H+] will tell us if a soln is acidic or basic.

  7. pH= 1- 6 [H+]= 1.0 x 10 M – 1.0 x 10 M [H+] > [OH-] Acidic solutions -1 -6 pH= 7 [H+] = [OH-] 1.0 x 10 M for both Neutral solutions -7 pH= 8 -14 [H+]= 1.0 x 10 M – 1.0 x 10 M [H+] < [OH-] Basic solutions -8 -14

  8. Acid / Base Chemistry • If [H+]= 1.0 x 10-9M, will the solution be basic or acidic? • Basic • Why? • because the pH= 9 and this solution contains less [H+] than [OH-]

  9. Acid / Base Chemistry • If [OH-]= 2.63 x 10-4M, will the solution be basic or acidic or neutral? • Why?

  10. Acid / Base Formulas • pH= -log [H+] • pOH= -log [OH-] • pH + pOH =14 • [H+] = antilog (-pH) • [OH-] = antilog (-pOH) • How to use the calculator!! • Calculate the pH of a solution with [H+] = 0.001 M. Is this acidic, basic, or neutral?

  11. Acid / Base Formulas • Calculate the pH of a solution with [OH-] = 7.9 x 10-3 M. Is this acidic, basic, or neutral? • Calculate the pH of a solution with [H+] = 4.2 x 10-6 M. Acidic, basic, or neutral? What is the [OH-]?

  12. Acid / Base Formulas • A solution with a pH of 9.1 has what [H+]? • 2nd log –9.1 ENTER • What is the [OH-]? • What is the pOH?

  13. Scientists Who Define Acids / Bases • Arrhenius: Acids: Any substance which releases H+ ion in water solution. Bases: Any substance which releases OH- ion in water solution.

  14. Scientists Who Define Acids / Bases • Bronsted - Lowry: Acids: Any substance which donates a proton. Bases: Any substance which accepts a proton.

  15. Acids, Bases, and Their Conjugates • Water is amphoteric – has basic + acidic properties. • Conjugate Acid: Substances formed in a reaction when a base gains a H+ • Conjugate Base: Substances formed in a reaction when an acid donates H+

  16. Acids, Bases, and Their Conjugates • NH3 + H2O -- NH4+ + OH- • HCl + H2O --->

  17. Acids, Bases, and Their Conjugates • CO3-2 + H2O ---> HCO3- + OH- • Ca(OH)2 + 2HNO3 --> Ca(NO3)2 + 2HOH

  18. Identifying monoprotic, diprotic, and triprotic: monoprotic: HCl H+ + Cl- diprotic: H2SO4 H+ + HSO4-1 HSO4-1 H+ + SO4-2 triprotic: H3PO4 H+ + H2PO4-1 H2PO4-1 H+ + HPO4-2 HPO4-2 H+ + PO4-3

  19. Strengths of Acids and Bases • Strong acids and bases will completely dissociate ex. HCl --> H+ + Cl- • The six strong acids - HCl, HBr, • HI, H2SO4, HNO3, HClO4 • All others are weak. • Strong Bases: Groups I • and II with OH- except Be

  20. Strengths of Acids and Bases • Weak acids and bases slightly dissociate ex. HClO <--> ClO- + H+

  21. Electrolytes and Non-Electrolytes • Strong Electrolytes: - Compounds that conduct electricity in aqueous solution - Substances that completely dissociate - Strong acids and bases - Soluble salts

  22. Electrolytes and Non-Electrolytes • Weak Electrolytes: - Slight electron conductivity - Slight dissociation in aqueous - Weak acids and bases - Insoluble salts if in molten state

  23. Electrolytes and Non-Electrolytes • NonElectrolytes: - Don’t conduct electricity - No ions to carry current - Organic, molecular

  24. Examples of Electrolytes and Nonelectrolytes: • H2S03 • weak acid/weak elect. • CsOH • strong base/strong elect. • HCl04 • strong acid/strong elect. • C6H1206 • nonelectrolyte- covalent, molecular, organic b/c carbon

  25. Examples of Electrolytes and Nonelectrolytes: • Al(OH)3 • weak base/weak electrolyte • HF • weak acid/weak electrolyte • CCl4 • nonelectrolyte- molecular compound • NaN03 • soluble salt/strong electrolyte • S03 • acid anhydride/weak electrolyte

  26. Neutralization Reactions: General Equation: • Acid + BaseSalt + Water • HCl + NaOHNaCl + HOH Acid Base Salt Water

  27. Neutralization Reactions: Titration:Analytical method used to determine the concentration of acids and bases in a neutralization reaction.

  28. Measured volume of an acid or base with unknown concentration. Put in Erlenmeyer. • Add a few drops of indicator to the Ernlenmeyer. • A measured volume of titrant is delivered into the flask through a buret (base or acid) • Concentration of the titrant is known –Standard Solution. • Neutralization occurs when indicator is revealed  End Point • Equivalence Point • MOL ACID = MOL BASE

  29. Titration Curve

  30. Neutralization practice problems: • What volume of calcium hydroxide in a 3.0 M solution is needed to neutralize 45.0 mL of 2.6 M perchloric acid?

  31. Neutralization practice problems: 2. Determine the [Ba(OH)2] solution if 300.0 mL was titrated to neutrality with 220.5 mL of 6.0 M solution of phosphoric acid?

  32. Neutralization practice problems: • What volume of calcium hydroxide in a 3.0 M solution is needed to neutralize 45.0 mL of 2.6 M perchloric acid? • G: 45 mL • 2.6 M HCl04 • 3.0 M Ca(OH)2 • U: ? vol Ca(OH)2 M CR M vol mol mol vol Ca(OH)2 + HCl04 2 HOH + Ca(Cl04)2 0.45 L HCl04 x 2.6 mol HCl04 x 1 mol Ca(OH)2 x 1 L Ca(OH)2 1 L Ca(OH)2 2 mol HCl04 3 mol Ca(OH)2 2. Determine the [Ba(OH)2] solution if 300.0 mL was titrated to neutrality with 220.5 mL of 6.0 M solution of phosphoric acid G: 220.5 mL 6.0 M H3P04 300.0 mL Ba(OH)2 U: ? M Ba(OH)2 M CR vol mol mol 3Ba(OH)2 + 2H3P04 Ba3(P04)2 + 6HOH 0.2205 L H3P04 x 6.0 mol H3P04 x 3 mol Ba(OH)2 1 L H3P04 2 mol H3P04 = 1.985 mol Ba(OH)2 1.985 mol Ba(OH)2 0.300L Ba(OH)2 = 6.62 M Ba(OH)2

  33. Dissociation examples

  34. Acid/Base Chemistry • Hydrogen ion concentration= [H+] • Hydroxide ion concentration= [OH-] • Pure HOH= neutral substance. • Kw is constant for water. [Kw= 1E-14 M2]

  35. More Acid/Base Chemistry • Kw = [1x10-7 M][1x10-7 M] (Kw=[H+][OH-]) • Most other substances are not neutral • Indirect relationships between [H+] and [OH-] • [H+] will tell us if solution is Acidic or basic.

  36. Strengths of Acids and Bases • Strong Acids: HCl, HI, HBr, H2SO4, HNO3, HClO4 • Strong Bases: Groups I and II with OH- except Be

  37. Identifying Electrolytes and Nonelectrolytes: • Strong Electrolytes: • compounds that conduct electricity in aqueous solutions • substance that completely dissociate • strong acids and bases • soluble salts • Weak Electrolytes: • -slight electrical conduct • -slight dissociation in aqueous solution • -conducts in molten state • -weak acids and bases • -insoluble salts (if in molten state) • Nonelectrolytes: • -don’t conduct electricity • -no ions to carry current • -organic, molecular

  38. Neutralization • Acid + Base > Salt + H2O • Neutralization is found using titration • Titration: Analytical method used to determine the concentration of acids, bases in a neutralization reaction.

  39. Neutralization reactions • Products always end in a salt and water. • Acid + Base = Salt + HOH • Titration- Analytical method used to determin the concentration of acids in a neutralization reaction.

  40. Theory

More Related