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Chapter 17 Acids and Bases

Chapter 17 Acids and Bases. Necessary Terminology to Begin. Hydronium = H 3 O + ( aq ) or H + ( aq ) Hydroxide = OH - ( aq ) Neutral Water = Equal amounts of above. General Info Bases. Taste Bitter to the taste React with our skin to form soap (so it feels soapy)

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Chapter 17 Acids and Bases

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  1. Chapter 17 Acids and Bases

  2. Necessary Terminology to Begin • Hydronium = H3O+ (aq) or H+ (aq) • Hydroxide = OH- (aq) • Neutral Water = Equal amounts of above

  3. General Info Bases • Taste Bitter to the taste • React with our skin to form soap (so it feels soapy) • React with oils and greases (so often used in cleaning products (ammonia) • Can cause dyes to change color. • Electrolytes • Corrosive

  4. General Info about Acids • Taste sour • Corrosive • Electrolytes • Attack skin by dissolving fatty acids.

  5. Common Acids and Bases • Can you name some?

  6. Common • Sulfuric (Batteries in Car) • Nitric (Explosives and Fertilizers Production) • Hydrochloric (Steel Industry (Pickling)) • Also called Muriatic

  7. Common • Aluminum Hydroxide (Deodorant) • Magnesium Hydroxide (Laxative) • Ammonia (Cleaner) • Cough Syrups (taste awful without flavoring)

  8. What is an Acid and Base? • 3 different definitions that describe what Acids and Bases are • Arrhenius Acids and Bases • Bronsted-Lowry Acids and bases • Lewis Acids and Bases

  9. Arrhenius Background • His theory defined an acid as any substance that when added to waterincreases the hydroniumionconcentration • Bases as any substance when added to water that increase the hydroxide ion concentration.

  10. Bronsted Acid and Bases • The Bronsted definition of an acid comes from a man from Denmark who made his proposal in 1923. His theory helped to overcome the shortcomings of the Arrhenius definition by allowing us to describe solutions which were not aqueous.

  11. Bronsted Acids and Bases • His definition has acids as hydrogen donors and bases as hydrogen acceptors.

  12. In Summary (Acids) • An Arrhenius acid generates hydronium ions in water. • A Bronsted acid donates hydrogens

  13. In Summary (Bases) • An Arrhenius base generates hydroxide ions in water • A Bronsted base accepts protons

  14. Practice Identifying • On the following slides, identify the acid and base (forward reaction) and then whether each acid/base definition works

  15. Questions • CH3COOH (aq) + H2O (L)  CH3COO- (aq) + H3O+ (aq) • HCl (aq) + NH3 (aq)  NH4+ (aq) + Cl- • NH3 (aq) + H2O (L)  NH4+ (aq) + OH- (aq)

  16. Amphoteric • A substance that can act as an acid or a base • Water and Ammonia are common examples

  17. Nomenclature • Throw as many hydrogen’s onto the anion/polyatomic ion and change the ending fromate to ic and ite to ous. With the exception the halogens (Add hydrochloric acid = HCl) • Perchlorate (ClO4-1) becomes PerchloricAcid (HClO4)

  18. Nomenclature • Nitrate (NO3-1) becomes Nitric Acid (HNO3) • Sulfite (SO3-2) becomes Sulfurous Acid (H2SO3) • Also: When writing the formula, if it is an acid, the H is placed at the beginning to denote that the chemical is an acid.

  19. Major Ideas • Strong and Weak Acids and Bases • Conjugate Acids and Bases • Bond Strength • Acid/Base Equilibrium

  20. What are Strong Acids/Bases? • Strong acids and bases fully ionize when placed in water. • The Unionized from of the acid is not present. There is no equilibrium, Strong acids and bases are completion reactions in water. • HCl (aq) + H2O (l)  H3O+ (aq) + Cl- (aq)

  21. If you take more chemistry, you will need to know these • There are 6 strong acids • Nitric Acid (HNO3) • Sulfuric Acid (H2SO4) • PerChloric Acid (HClO4) • HydroBromic Acid (HBr) • HydroChloric Acid (HCl) • HydroIodic Acid (HI)

  22. Strong Acids • Every one of those, when placed in water, will ionize and all you will have is Hydronium and the Anion. • HCl (aq) + H2O (l)  H3O+ (aq) + Cl- (aq) • Acid + Water  Hydronium + Anion

  23. Strong Bases • A strong base is any Alkali Metal with a Hydroxide. • Such as: Sodium Hydroxide (NaOH), Potassium Hydroxide (KOH),

  24. Big Idea behind Strong Acids • If 1,000,000 moleculesofHCl are placed into 1.0 L of water, the Concentration of Hydronium is equal to the concentration of the Strong Acid placed into the solution. • The concentration of Hydronium is 1,000,000 molecules in 1.0 L in this example.

  25. Conjugate Acids/Bases • When an Acid gives up its proton, the molecule left (minus a hydrogen) is called a conjugate base. • The conjugate base has a negative charge and, being negative, has the ability to attract a nearby hydrogen (which is positive) to bond to it.

  26. Conjugate Acids/Bases • When a Base receives a proton, the molecule (plus a hydrogen) is called a conjugate acid. • The conjugate acid has a positive charge and is looking to give up its positive charge to another molecule.

  27. Conjugate Acids/Bases • Summarized • Conjugate Acid  An acid that forms when a base gains a proton • Conjugate Base  A base that forms when an acid loses a proton

  28. Example Acid Base • HC2H3O2 (aq) + H2O  • C2H3O2- (aq) + H3O+ (aq) • Conj. Base Conj. Acid

  29. Example • Base Acid • NH3 (aq) + H2O (l)  • NH4+ (aq) + OH- (aq) • Conj. Acid Conj. Base

  30. Practice • Questions • What is the conjugate Base of the following Acids? • HCl H2SO4 • Hydronium Ammonium (NH4+)

  31. Practice • Label the following as Acid/Base/CB/CA • HF + H2O  F- + H3O+ • CH3O- +H2O  CH3OH + OH-

  32. What are Weak Acids/Bases? • Weak acids and bases partially ionize when placed into water. An equilibrium is established where the Hydrogens are fought over (who gets to have the hydrogen?). • Acetic acid (HC2H3O2) when placed into water partially ionizes.

  33. Weak Acid/Base Example • Weak Acid • HC2H3O2 (aq) + H2O  • C2H3O2- (aq) + H3O+ (aq) • Weak Base • NH3 (aq) + H2O (l)  • NH4+ (aq) + OH- (aq)

  34. How weak is weak? • If 100 weak acid molecules were put into a solution of water, only about 5 would react. • Most weak acids are found with their hydrogen

  35. New Ideas • The pH Scale • Calculating the Hydronium Concentration

  36. pH Scale: Before we start… • Quick Math: The Logarithm Scale • On a logarithmic scale, a change in 1 represents a change in 10, a change in 2 represents a change of 100. • The Richter Scale (Earthquakes) An earthquake that registers a 5.0 is 1000x stronger than an earthquake that registers 2.0

  37. The pH Scale • Is a measure of how many Hydroniums are in the water. • The pH means: Powers of Hydrogen • On the Log Scale • A pH of 7 means the concentration of Hydronium is 0.0000001 or 1x10-7

  38. pH Scale • pH pOH [H3O+] [OH-] • 0 14 1 1 x10-14 • 1 13 0.1 1x10-13 • 2 12 0.01 1x10-12 • 3 11 1x10-3 1x10-11 • 4 10 1 x10-4 1 x10-10 • 5 9 1 x10-5 1 x10-9

  39. pH Scale • pH pOH [H3O+] [OH-] • 6 8 1 x10-6 1 x10-8 • 7 7 1 x10-7 1 x10-7 • 8 6 1 x10-8 1 x10-6 • 9 5 1 x10-9 1 x10-5 • 10 4 1 x10-10 1 x10-4 • 11 3 1 x10-11 1 x10-3

  40. Hydronium in Distilled WaterpH: Why it adds up to 14 • Water self ionizes (to a very small extent) • 2 H2O (l) H3O+ (aq) + OH- (aq) • Kw = [H3O+][ OH-] • Kw = 1.0 x10-14(This is a constant)

  41. The pH scale • When acids are added to water, they add to the hydronium concentration (decreasing the hydroxide concentration) • When bases are added to water, they add to the hydroxide concentration (decreasing the hydronium concentration).

  42. The pH Scale at neutral • Kw = [OH][H] • Kw = (1E-7)(1E-7) = 1E-14 pH = 7 • A pH of 7 is considered Neutral (it contains just as much base as acid)

  43. Question • Can you have a pH less than 0 and greater than 14? • Yes, a 10.0 Molar HCl solution has a pH of -1

  44. What is the pH? • A solution has a hydronium concentration of 0.001? • A solution has a hydroxide concentration of 0.00001? • A solution has equal concentrations of hydroniumand hydroxide?

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