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“Acids, Bases, and Salts”. Acids-Bases n OBJECTIVES: –Define the properties of acids and bases.

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Presentation on theme: "“Acids, Bases, and Salts”. Acids-Bases n OBJECTIVES: –Define the properties of acids and bases."— Presentation transcript:

1 “Acids, Bases, and Salts”

2 Acids-Bases n OBJECTIVES: –Define the properties of acids and bases.

3 Acid-Base Theories n OBJECTIVES: –Compare and contrast acids and bases as defined by the theories of: a) Arrhenius, b) Brønsted-Lowry, and c) Lewis.

4 Acid-Base in the Real World Acids How many foods can you think of that are sour? That sour taste is due to the acid contained in the food.

5 Examples Sour Milk –lactic acid Vinegar- acetic acid Soda – phosphoric acid Lemons and oranges – citric acid Grape juice – tartaric acid

6 Acid-Base in the Real World Bases Many everyday items in the household contain bases. contain bases. Cleaning products and simple medicines.

7 Examples Household cleaners – ammonia Drain and oven cleaners- NaOH Antacids – magnesium hydroxide, aluminum hydroxide and sodium bicarbonate

8 Properties of Acids n They taste sour. n They can conduct electricity. –Can be strong or weak electrolytes in aqueous solution n React with metals to form H 2 gas. n Change the color of indicators (for example: blue litmus turns to red). n React with bases (metallic hydroxides) to form water and a salt.

9 Properties of Acids n They have a pH of less than 7 (more on this concept of pH in a later lesson) n They react with carbonates and bicarbonates to produce a salt, water, and carbon dioxide gas n How do you know if a chemical is an acid? –It usually starts with Hydrogen. –HCl, H 2 SO 4, HNO 3, etc. (but not water!)

10 Acid Nomenclature A binary acid is an acid that contains only two different elements: hydrogen and one of the more electronegative elements. HF – hydrofluoric acid HCl – hydrochloric acid HBr – hydrobromic acid HI – hydroiodic acid

11 Acid Nomenclature A oxyacid is an acid that contains Hydrogen, oxygen and a third element, usually a nonmetal. CH 3 COOH – acidic acid HNO 3 – nitric acid H 2 SO 4 – sulfuric acid H 3 PO 4 – phosphoric acid

12 Sulfuric Acid = H 2 SO 4 Highest volume production of any chemical in the U.S. (approximately 60 billion pounds/year) Used in the production of paper Used in production of fertilizers Used in petroleum refining; auto batteries

13 Nitric Acid = HNO 3 Used in the production of fertilizer Used in the production of explosives Nitric acid is a volatile acid – its reactive components evaporate easily Stains proteins yellow (including skin!)

14 Hydrochloric Acid = HCl Used in the “pickling” of steel (remove surface impurities) Used to purify magnesium from sea water Part of gastric juice, it aids in the digestion of proteins Sold commercially as Muriatic acid (cleaning bricks and masonary)

15 Phosphoric Acid = H 3 PO 4 A flavoring agent in sodas (adds “tart”) Used in the manufacture of detergents Used in the manufacture of fertilizers Not a common laboratory reagent

16 Acetic Acid - CH 3 COOH Used in the manufacture of plastics Used in making pharmaceuticals Acetic acid is the acid that is present in household vinegar

17 Acids Affect Indicators, by changing their color Blue litmus paper turns red in contact with an acid (and red paper stays red).

18 Acids have a pH less than 7

19 Acids React with Active Metals Acids react with active metals to form salts and hydrogen gas: HCl (aq) + Mg (s) → MgCl 2(aq) + H 2(g) This is a single-replacement reaction

20 Acids React with Carbonates and Bicarbonates HCl + NaHCO 3 NaCl + H 2 O + CO 2 Hydrochloric acid + sodium bicarbonate salt + water + carbon dioxide An old-time home remedy for relieving an upset stomach

21 Effects of Acid Rain on Marble (marble is calcium carbonate) George Washington: BEFORE acid rain George Washington: AFTER acid rain

22 Acids Neutralize Bases HCl + NaOH → NaCl + H 2 O - Neutralization reactions ALWAYS produce a salt (which is an ionic compound) and water. -Of course, it takes the right proportion of acid and base to produce a neutral salt

23 Properties of Bases (metallic hydroxides) n React with acids to form water and a salt. n Taste bitter. n Feel slippery (don’t try this either). n Can be strong or weak electrolytes in aqueous solution n Change the color of indicators (red litmus turns blue).

24 Examples of Bases (metallic hydroxides) Sodium hydroxide, NaOH (lye for drain cleaner; soap) Potassium hydroxide, KOH (alkaline batteries) Magnesium hydroxide, Mg(OH) 2 (Milk of Magnesia) Calcium hydroxide, Ca(OH) 2 (lime; masonry)

25 Bases Affect Indicators Red litmus paper turns blue in contact with a base (and blue paper stays blue). Phenolphthalein turns purple in a base.

26 Bases have a pH greater than 7

27 Bases Neutralize Acids Milk of Magnesia contains magnesium hydroxide, Mg(OH) 2, which neutralizes stomach acid, HCl. 2 HCl + Mg(OH) 2 MgCl 2 + 2 H 2 O Magnesium salts can cause diarrhea (thus they are used as a laxative) and may also cause kidney stones.

28 Acid-Base Theories

29 Svante Arrhenius n He was a Swedish chemist (1859- 1927), and a Nobel prize winner in chemistry (1903) n one of the first chemists to explain the chemical theory of the behavior of acids and bases n Dr. Hubert Alyea (professor emeritus at Princeton University) was the last graduate student of Arrhenius.

30 1. Arrhenius Definition - 1887 n Acids produce hydrogen ions (H 1+ ) in aqueous solution (HCl → H 1+ + Cl 1- ) n Bases produce hydroxide ions (OH 1- ) when dissolved in water. (NaOH → Na 1+ + OH 1- ) n Limited to aqueous solutions. n Only one kind of base (hydroxides) n NH 3 (ammonia) could not be an Arrhenius base: no OH 1- produced.

31 Svante Arrhenius (1859-1927)

32 Polyprotic Acids? n Some compounds have more than one ionizable hydrogen to release n HNO 3 nitric acid - monoprotic n H 2 SO 4 sulfuric acid - diprotic - 2 H + n H 3 PO 4 phosphoric acid - triprotic - 3 H + n Having more than one ionizable hydrogen does not mean stronger!

33 Acids n Not all compounds that have hydrogen are acids. Water? n Also, not all the hydrogen in an acid may be released as ions –only those that have very polar bonds are ionizable - this is when the hydrogen is joined to a very electronegative element

34 Arrhenius examples... n Consider HCl = it is an acid! n What about CH 4 (methane)? n CH 3 COOH (ethanoic acid, also called acetic acid) - it has 4 hydrogens just like methane does…?

35 Organic Acids (those with carbon) Organic acids all contain the carboxyl group, (-COOH), sometimes several of them. CH 3 COOH – of the 4 hydrogen, only 1 ionizable The carboxyl group is a poor proton donor, so ALL organic acids are weak acids. (due to being bonded to the highly electronegative Oxygen)

36 2. Brønsted-Lowry - 1923 n A broader definition than Arrhenius n Acid is hydrogen-ion donor (H + or proton); base is hydrogen-ion acceptor. n Acids and bases always come in pairs. n HCl is an acid. –When it dissolves in water, it gives it’s proton to water. HCl (g) + H 2 O (l) ↔ H 3 O + (aq) + Cl - (aq) HCl (g) + H 2 O (l) ↔ H 3 O + (aq) + Cl - (aq) n Water is a base; makes hydronium ion.

37 Johannes Brønsted Thomas Lowry (1879-1947) (1874-1936) Denmark England

38 Why Ammonia is a Base n Ammonia can be explained as a base by using Brønsted-Lowry: NH 3(aq) + H 2 O (l) ↔ NH 4 1+ (aq) + OH 1- (aq) Ammonia is the hydrogen ion acceptor (base), and water is the hydrogen ion donor (acid). This causes the OH 1- concentration to be greater than in pure water, and the ammonia solution is basic

39 Acids and bases come in pairs n A “conjugate base” is the remainder of the original acid, after it donates it’s hydrogen ion n A “conjugate acid” is the particle formed when the original base gains a hydrogen ion n Thus, a conjugate acid-base pair is related by the loss or gain of a single hydrogen ion.

40 Acids and bases come in pairs n General equation is: HA (aq) + H 2 O (l) ↔ H 3 O + (aq) + A - (aq) n Acid + Base ↔ Conjugate acid + Conjugate base n NH 3 + H 2 O ↔ NH 4 1+ + OH 1- base acid c.a. c.b. base acid c.a. c.b. n HCl + H 2 O ↔ H 3 O 1+ + Cl 1- acid base c.a. c.b. acid base c.a. c.b. n Amphoteric – a substance that can act as both an acid and base- as water shows

41 3. Lewis Acids and Bases n Gilbert Lewis focused on the donation or acceptance of a pair of electrons during a reaction n Lewis Acid - electron pair acceptor n Lewis Base - electron pair donor n Most general of all 3 definitions; acids don’t even need hydrogen! n Summary : Table 19.4, page 592

42 Gilbert Lewis (1875-1946)

43 - Page 593

44 Hydrogen Ions and Acidity n OBJECTIVES: –Describe how [H 1+ ] and [OH 1- ] are related in an aqueous solution.

45 Hydrogen Ions and Acidity n OBJECTIVES: –Classify a solution as neutral, acidic, or basic given the hydrogen-ion or hydroxide-ion concentration.

46 Hydrogen Ions and Acidity n OBJECTIVES: –Convert hydrogen-ion concentrations into pH values and hydroxide-ion concentrations into pOH values.

47 Hydrogen Ions and Acidity n OBJECTIVES: –Describe the purpose of an acid-base indicator.

48 Hydrogen Ions from Water n Water ionizes, or falls apart into ions: 2H 2 O ↔ 2H + + 2OH - n Called the “self ionization” of water n Occurs to a very small extent: [H 1+ ] = [OH 1- ] = 1 x 10 -7 M n Since they are equal, a neutral solution results from water K w = [H 1+ ] x [OH 1- ] = 1 x 10 -14 M 2 n K w is called the “ionization constant” for water

49 Ion Product Constant n 2H 2 O ↔ 2H + + 2OH - n K w is constant in every aqueous solution: [H + ] x [OH - ] = 1 x 10 -14 M 2 n If [H + ] > 10 -7 then [OH - ] 10 -7 then [OH - ] < 10 -7 n If [H + ] 10 -7 n If we know one, other can be determined n If [H + ] > 10 -7, it is acidic and [OH - ] 10 -7, it is acidic and [OH - ] < 10 -7 n If [H + ] 10 -7 –Basic solutions also called “alkaline”

50 Strong acids and bases are completely ionized in aqueous solutions: HCl H + + Cl - NaOH Na + + OH -

51 Therefore: NaOH Na + + OH - 1 mole 1 mole 1 x 10 -2 M 1 x 10 -2 M This is a basic solution

52 Problems Calculating [H + ] and [OH - ]

53

54 pH

55 The pH Scale – from 0 to 14 n pH = pouvoir hydrogene (Fr.) “hydrogen power” n definition: pH = -log[H + ] n in neutral pH = -log(1 x 10 -7 ) = 7 n in acidic solution [H + ] > 10 -7 n pH < -log(10 -7 ) –pH < 7 (from 0 to 7 is the acid range) –pH > 7 (7 to 14 is base range)

56

57 Calculating pOH n pOH = -log [OH - ] n [H + ] x [OH - ] = 1 x 10 -14 M 2 n pH + pOH = 14 n Not greatly used like pH is.

58 pH and Significant Figures n For pH calculations, the hydrogen ion concentration is usually expressed in scientific notation n [H 1+ ] = 0.0010 M = 1.0 x 10 -3 M, and 0.0010 has 2 significant figures n the pH = 3.00, with the two numbers to the right of the decimal corresponding to the two significant figures

59 Problem 1 What is the pH of a solution if the [H 3 O + ] is 1 x 10 -6 M? pH = -log(1 x 10 -6 ) = 6 The solution is acidic H 3 O+ pH = -log[H 3 O+]

60 Problem 2 What is the pH of a solution if the [OH - ] is 1 x 10 -2 M? H 3 O+ pH = -log[H 3 O+] n [H + ] x [OH - ] = 1 x 10 -14 M 2 n [H + ] x [1 x 10 -2 ] = 1 x 10 -14 M 2 n [H + ] = 1 x 10 -12 M

61 Problem 2 What is the pH of a solution if the [OH - ] is 1 x 10 -2 M? pH = -log(1 x 10 -12 ) = 12 The solution is basic H 3 O+ pH = -log[H 3 O+]

62 Problem 3 What is the pH of a solution if the [H 3 O+] is 3.4 x 10 -5 M? Hint: since 3.4 x 10 -5 M is between 10 -4 and 10 -5 the pH of the solution must be between 4 and 5.

63 Problem 3 What is the pH of a solution if the [H 3 O+] is 3.4 x 10 -5 M? H 3 O+ pH = -log[H 3 O+] 3.4 x 10 -5 pH = -log[3.4 x 10 -5 ] pH = 4.47

64 Problems 1) What is the pH of a solution if the [H 3 O+] is 6.7 x 10 -4 M? 2) What is the pH of a solution if the [H 3 O+] is 2.5 x 10 -2 M?

65 Problems 1)What is the pH of a solution if the [H 3 O+] is 6.7 x 10 -4 M? Answer: 3.17 2) What is the pH of a solution if the [H 3 O+] is 2.5 x 10 -2 M? Answer: 1.60

66 Problems 3) Determine the pH of a 2.0 x 10 -2 M Sr(OH) 2 solution.

67 Problems [OH - ] = 4.0 x 10 -2 M [H+] = 2.5 x 10 -13 M pH = -log[2.5 x 10 -13 ] = 12.60

68 -

69 Measuring pH n Why measure pH? 4Everyday solutions we use - everything from swimming pools, soil conditions for plants, medical diagnosis, soaps and shampoos, etc. n Sometimes we can use indicators, other times we might need a pH meter

70 How to measure pH with wide-range paper 1. Moisten the pH indicator paper strip with a few drops of solution, by using a stirring rod. 2.Compare the color to the chart on the vial – then read the pH value.

71 Acid-Base Indicators Compounds whose colors are sensitive to pH. The color of the indicator changes as the pH of a solution changes. Indicators are weak acids or bases HIn H + + In - ( In - anion part)

72 HIn H + + In - Acid-Base Indicators The color that the indicator displays result from the fact that HIn and In - are different colors HIn H + + In - Pink Blue Ex. acid base

73 Some of the many pH Indicators and their pH range

74 Acid-Base Indicators n Although useful, there are limitations to indicators: –usually given for a certain temperature (25 o C), thus may change at different temperatures –what if the solution already has a color, like paint? – the ability of the human eye to distinguish colors is limited

75 Acid-Base Indicators n A pH meter may give more definitive results –some are large, others portable –works by measuring the voltage between two electrodes; typically accurate to within 0.01 pH unit of the true pH –Instruments need to be calibrated

76 Buffers n Buffers are solutions in which the pH remains relatively constant, even when small amounts of acid or base are added n made from a pair of chemicals: a weak acid and one of it’s salts

77 Buffers n A buffer system is better able to resist changes in pH than pure water n Since it is a pair of chemicals: –one chemical neutralizes any acid added, while the other chemical would neutralize any additional base

78 Buffers n Example: acetic acid in water n CH 3 COOH CH 3 COO - + H + n The buffer capacity is the amount of acid or base that can be added before a significant change in pH

79 Aspirin (which is a type of acid) sometimes causes stomach upset; thus by adding a “buffer”, it does not cause the acid irritation. Bufferin is one brand of a buffered aspirin that is sold in stores.

80 Chapter 16 Strengths of Acids and Bases n OBJECTIVES: –Define strong acids and weak acids.

81 Chapter 16 Strengths of Acids and Bases n OBJECTIVES: –Describe how an acid’s strength is related to the value of its acid dissociation constant.

82 Chapter 16 Strengths of Acids and Bases n OBJECTIVES: –Calculate an acid dissociation constant (K a ) from concentration and pH measurements.

83 Chapter 16 Strengths of Acids and Bases n OBJECTIVES: –Order acids by strength according to their acid dissociation constants (K a ).

84 Chapter 16 Strengths of Acids and Bases n OBJECTIVES: –Order bases by strength according to their base dissociation constants (K b ).

85 Strength n Acids and Bases are classified acording to the degree to which they ionize in water: –Strong are completely ionized in aqueous solution; this means they ionize 100 % –Weak ionize only slightly in aqueous solution n Strength is very different from Concentration

86 Strength n Strong – means it forms many ions when dissolved (100% ionization) n Mg(OH) 2 is a strong base- it falls completely apart (nearly 100% when dissolved). –But, not much dissolves- so it is not concentrated

87 Strong Acid Dissociation (makes 100 % ions)

88 Weak Acid Dissociation (only partially ionizes)

89 Measuring strength n Ionization is reversible: HA + H 2 O ↔ H + + A - n This makes an equilibrium n Acid dissociation constant = K a n K a = [H + ][A - ] [HA] n Stronger acid = more products (ions), thus a larger K a (Table 19.7, page 607) (Note that water is NOT shown, because its concentration is constant, and built into K a ) (Note that the arrow goes both directions.)

90 What about bases? n Strong bases dissociate completely. n MOH + H 2 O ↔ M + + OH - (M = a metal) n Base dissociation constant = K b n K b = [M + ][OH - ] [MOH] n Stronger base = more dissociated ions are produced, thus a larger K b.

91 Strength vs. Concentration n The words concentrated and dilute tell how much of an acid or base is dissolved in solution - refers to the number of moles of acid or base in a given volume n The words strong and weak refer to the extent of ionization of an acid or base n Is a concentrated, weak acid possible?

92 Practice n Write the K a expression for HNO 2 1)Equation: HNO 2 ↔ H 1+ + NO 2 1- 2)K a = [H 1 + ] x [NO 2 1 - ] [ HNO 2 ] n Write the K b expression for NH 3 (as NH 4 OH)

93 - Page 610

94 Chapter 16 Neutralization Reactions n OBJECTIVES: –Define the products of an acid-base reaction.

95 Chapter 16 Neutralization Reactions n OBJECTIVES: –Explain how acid-base titration is used to calculate the concentration of an acid or a base.

96 Chapter 16 Neutralization Reactions n OBJECTIVES: –Explain the concept of equivalence in neutralization reactions.

97 Chapter 16 Neutralization Reactions n OBJECTIVES: –Describe the relationship between equivalence point and the end point of a titration.

98 Acid-Base Reactions n Acid + Base Water + Salt n Properties related to every day: –antacids depend on neutralization –farmers adjust the soil pH –Baking powder –human body kidney stones from insoluble salts

99 Acid-Base Reactions n Neutralization Reaction - a reaction in which an acid and a base react in an aqueous solution to produce a salt and water: HCl (aq) + NaOH (aq) NaCl (aq) + H 2 O (l) H 2 SO 4(aq) + 2KOH (aq) K 2 SO 4(aq) + 2 H 2 O (l)

100 Titration n Titration is the process of adding a known amount of solution of known concentration to determine the concentration of another solution n Remember - a balanced equation is a mole ratio n The equivalence point is when the moles of hydrogen ions is equal to the moles of hydroxide ions (= neutralized!)

101 - Page 614

102 Titration n The concentration of acid (or base) in solution can be determined by performing a neutralization reaction –An indicator is used to show when neutralization has occurred –Often we use phenolphthalein- because it is colorless in neutral and acid; turns pink in base

103 Steps - Neutralization reaction #1. A measured volume of acid of unknown concentration is added to a flask #2. Several drops of indicator added #3. A base of known concentration is slowly added, until the indicator changes color; measure the volume

104 Neutralization n The solution of known concentration is called the standard solution –added by using a buret n Continue adding until the indicator changes color –called the “end point” of the titration

105 Problem 1 Suppose 20.0 mL of 5.0 x 10 -3 M NaOH is required to reach the end point in the titration of 10.0 mL of HCl of unknown concentration. Determine the molarity of HCl.

106 HCl (aq) + NaOH (aq) NaCl (aq) + H 2 O (l) 1 mole 1 mole known: 20 mL of 5.0 x 10 -3 M NaOH 10 mL of HCl 10 mL of HCl unknown: M of HCl (0.005 M)(0.020 L) = (M HCl)(0.010 L) M HCl = 0.01 M

107 Problem 2 In a titration, 27.4 mL of 0.0154 M Ba(OH) 2 is added to a 20.0 mL of HCl of unknown concentration. Determine the molarity of HCl.

108 2HCl + Ba(OH) 2 BaCl 2 + 2H 2 O 2 mole 1 mole known: 27.4 mL of 0.0154M Ba(OH) 2 20 mL of HCl 20 mL of HCl unknown: M of HCl (2)(0.0154 M)(0.0274 L) = (M HCl)(0.020 L) M HCl = 0.042 M

109 Sample Problems 1 and 2 page 503

110 Section 19.5 Salts in Solution n OBJECTIVES: –Describe when a solution of a salt is acidic or basic.

111 Section 19.5 Salts in Solution n OBJECTIVES: –Demonstrate with equations how buffers resist changes in pH.

112 Salt Hydrolysis n A salt is an ionic compound that: –comes from the anion of an acid –comes from the cation of a base –is formed from a neutralization reaction –some neutral; others acidic or basic n “Salt hydrolysis” - a salt that reacts with water to produce an acid or base

113 Salt Hydrolysis n To see if the resulting salt is acidic or basic, check the “parent” acid and base that formed it. Practice on these: HCl + NaOH  H 2 SO 4 + NH 4 OH  CH 3 COOH + KOH  NaCl, a neutral salt (NH 4 ) 2 SO 4, acidic salt CH 3 COOK, basic salt

114 Salt Hydrolysis n Hydrolyzing salts usually come from: 1.a strong acid + a weak base, or 2.a weak acid + a strong base n Strong refers to the degree of ionization A strong Acid + a strong Base = Neutral Salt n How do you know if it’s strong? –Refer to the handout provided (downloadable from my web site)

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