INTRODUCTORY CHEMISTRY Concepts and Critical Thinking Seventh Edition by Charles H. Corwin

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1 Lecture INTRODUCTORY CHEMISTRY Concepts and Critical Thinking Seventh Edition by Charles H. Corwin Acids and Bases

2 Properties of Acids An acid is any substance that releases hydrogen ions, H +, into water. Litmus paper turns red in the presence of hydrogen ions. Blue litmus is used to test for acids. Acids have a sour taste; lemons, limes, and vinegar are acidic.

3 Properties of Bases A base is a substance that releases hydroxide ions, OH, into water. Litmus paper turns blue in the presence of hydroxide ions. Red litmus is used to test for bases. Bases have a slippery, soapy feel. Bases also have a bitter taste; milk of magnesia is a base.

4 Acid and Base Properties

5 Acid Base Neutralization Recall that an acid and a base react with each other in a neutralization reaction. When an acid and a base react, water and a salt are produced. For example, nitric acid reacts with sodium hydroxide to produce sodium nitrate and water: HNO 3 (aq) + NaOH(aq) NaNO 3 (aq) + H 2 O(l)

6 The ph Scale A ph value expresses the acidity or basicity of a solution. Most solutions have a ph between 0 and 14. Acidic solutions have a ph less than 7. As a solution becomes more acidic, the ph decreases. Basic solutions have a ph greater than 7. As a solution becomes more basic, the ph increases.

7 Acid Base Classifications of Solutions A solution can be classified according to its ph. Strongly acidic solutions have a ph less than 2. Weakly acidic solutions have a ph between 2 and 7. Weakly basic solutions have a ph between 7 and 12. Strongly basic solutions have a ph greater than 12. Neutral solutions have a ph of 7.

8 Buffers A buffer is a solution that resists changes in ph when an acid or a base is added. A buffer is a solution of an aqueous weak acid and one of its salts: Citric acid and sodium citrate make a buffer solution. When an acid is added to the buffer, the citrate reacts with the acid to neutralize it. When a base is added to the buffer, the citric acid reacts with the base to neutralize it.

9 Arrhenius Acids and Bases Svante Arrhenius proposed the following definitions for acids and bases in 1884: An Arrhenius acid is a substance that ionizes in water to produce hydrogen ions. An Arrhenius base is a substance that ionizes in water to release hydroxide ions. For example, HCl is an Arrhenius acid and NaOH is an Arrhenius base.

10 Strengths of Acids Acids have varying strengths. The strength of an Arrhenius acid is measured by the degree of ionization in solution. Ionization is the process by which molecules of a polar compound ionize to form cations and anions. The acid HCl ionizes into H + and Cl ions in solution.

11 Strengths of Bases Bases also have varying strengths. The strength of an Arrhenius base is measured by the degree of dissociation in solution. Dissociation is the process whereby already existing ions of an ionic compound simply separate. A formula unit of NaOH dissociates into Na + and OH ions in solution.

12 Strong and Weak Arrhenius Acids Strong acids ionize extensively to release hydrogen ions into solution. HCl is a strong acid and ionizes nearly 100%. Weak acids only ionize slightly in solution. HF is a weak acid and ionizes only about 1%.

13 Arrhenius Acids in Solution All Arrhenius acids have a hydrogen atom bonded to an acid molecule by a polar bond. This bond is broken when the acid ionizes. Polar water molecules help ionize the acid by pulling the hydrogen atom away: HCl(aq) + H 2 O(l) H 3 O + (aq) + Cl (aq) (~100%) HC 2 H 3 O 2 (aq) + H 2 O(l) H 3 O + (aq) + C 2 H 3 O 2 (aq) (~1%) The hydronium ion, H 3 O +, is formed when a hydrogen ion attaches to a nonbonding electron pair on a water molecule.

14 Strong and Weak Arrhenius Bases Strong bases dissociate extensively to release hydroxide ions into solution. NaOH is a strong base and dissociates nearly 100%. Weak bases only ionize slightly in solution. NH 4 OH is a weak base and only partially dissociates.

15 Arrhenius Bases in Solution When we dissolve Arrhenius bases in solution, they dissociate, giving a cation and a hydroxide anion. Strong bases dissociate almost fully, and weak bases dissociate very little. NaOH(aq) Na + (aq) + OH (aq) (~100%) NH 4 OH(aq) NH 4+ (aq) + OH (aq) (~1%)

16 Neutralization Reactions Recall that an acid neutralizes a base to produce a salt and water. HCl(aq) + NaOH(aq) NaCl(aq) + H 2 O(l) The reaction produces the aqueous salt NaCl. If we have an acid with two hydrogens (sulfuric acid, H 2 SO 4 ), we need two hydroxide ions to neutralize it. H 2 SO 4 (aq) + 2 NaOH(aq) Na 2 SO 4 (aq) + 2 H 2 O(l)

17 Predicting Neutralization Reactions We can identify the Arrhenius acid and base that react in a neutralization reaction to produce a given salt such as calcium sulfate, CaSO 4. The calcium must be from calcium hydroxide, Ca(OH) 2 ; the sulfate must be from sulfuric acid, H 2 SO 4. H 2 SO 4 (aq) + Ca(OH) 2 (aq) CaSO 4 (aq) + 2 H 2 O(l)

18 Chemistry Connection: Svante Arrhenius Arrhenius noted that NaCl solutions conducted electricity; whereas sugar solutions did not. He also noticed that the freezing point of NaCl solutions were lowered twice as much as sugar solutions at the same concentration. He proposed that NaCl produces ions when dissolved, whereas sugar was in solution as molecules. It was nearly 20 years before his ideas were accepted by the scientific community.

19 Brønsted Lowry Acids and Bases The Brønsted Lowry definitions of acids and bases are broader than that of the Arrhenius definitions. A Brønsted Lowry acid is a substance that donates a hydrogen ion to any other substance. It is a proton donor. A Brønsted Lowry base is a substance that accepts a hydrogen ion. It is a proton acceptor.

20 Brønsted Lowry Acids and Bases, Continued Let s look at two acid base reactions: 1. HCl(aq) + NaOH(aq) NaCl(aq) + H 2 O(l) 2. HCl(aq) + NH 3 (aq) NH 4 Cl(aq) HCl donates a proton in both reactions and is a Brønsted Lowry acid. In the first reaction, the NaOH accepts a proton and is the Brønsted Lowry base. In the second reaction, NH 3 accepts a proton and is the Brønsted Lowry base.

21 Amphiprotic Compounds A substance that is capable of both donating and accepting a proton is an amphiprotic compound. NaHCO 3 is an example: HCl(aq) + NaHCO 3 (aq) NaCl(aq) + H 2 CO 3 (aq) NaOH(aq) + NaHCO 3 (aq) Na 2 CO 3 (aq) + H 2 O(l) NaHCO 3 accepts a proton from HCl in the first reaction and donates a proton to NaOH in the second reaction.

22 Acid Base Indicators A solution that is sensitive to a change in ph by exhibiting a different color is an acid base indicator. Shown below are the three indicators at different ph values.

23 Acid Base Titrations A titration is used to analyze an acid solution using a solution of a base. A measured volume of base is added to the acid solution. When all of the acid has been neutralized, the ph is 7. One extra drop of base solution after the endpoint increases the ph dramatically. When the ph increases above 7, phenolphthalein changes from colorless to pink, indicating the endpoint of the titration.

24 Acid Base Titrations, Continued The beginning, middle, and end of an acid base, using phenolphthalein as the indicator.

25 Titration Problem Consider the titration of acetic acid with sodium hydroxide. A 10.0 ml sample of acetic acid requires ml of M NaOH. What is the concentration of the acetic acid? HC 2 H 3 O 2 (aq) + NaOH(aq) NaC 2 H 3 O 2 (aq) + H 2 O(l) We want concentration acetic acid; we have concentration sodium hydroxide. conc NaOH Þ mol NaOH Þ mol HC 2 H 3 O 2 Þ conc HC 2 H 3 O 2

26 Titration Problem, Continued The molarity of NaOH can be written as the unit factor mol NaOH/1000 ml solution ml solution x mol NaOH 1000 ml solution x 1 mol HC 2 H 3 O 2 1 mol NaOH = mol HC 2 H 3 O mol HC 2 H 3 O ml solution x 10.0 ml solution 1 L solution = M HC 2 H 3 O 2

27 Another Titration Problem A 10.0 ml sample of M H 2 SO 4 is titrated with M NaOH. What volume of NaOH is required for the titration? We want ml of NaOH; we have 10.0 ml of H 2 SO 4. Use mol H 2 SO 4 /1000 ml and mol NaOH/1000 ml.

28 Another Titration Problem, Continued H 2 SO 4 (aq) + 2 NaOH(aq) Na 2 SO 4 (aq) + H 2 O(l) 10.0 ml H 2 SO 4 x mol H 2 SO ml H 2 SO 4 x 1 mol H 2 SO 4 2 mol NaOH x mol NaOH 1000 ml NaOH = 49.8 ml NaOH 49.8 ml of M NaOH is required to neutralize 10.0 ml of M H 2 SO 4.

29 Acid Base Standardization A standard solution is a solution in which the concentration is known precisely. Acid solutions are standardized by neutralizing a weighed quantity of a solid base. What is the molarity of a hydrochloric acid solution if ml are required to neutralize g Na 2 CO 3? 2 HCl(aq) + Na 2 CO 3 (aq) 2 NaCl(aq) + H 2 O(l) + CO 2 (g)

30 Acid Base Standardization, Continued g Na 2 CO 3 1 mol Na 2 CO g Na 2 CO 3 2 mol HCl 1 mol Na 2 CO 3 = mol HCl mol HCl 1000 ml solution ml solution 1 L solution = M HCl

31 Ionization of Water Occassionally two water molecules react to produce a hydronium ion and a hydroxide ion. H 2 O(l) + H 2 O(l) H 3 O + (aq) + OH (aq) or H 2 O(l) H + (aq) + OH (aq) Only about 1 in 500 million water molecules is present as an ion, so water is a weak conductor. The concentration of hydrogen ions, [H + ], in pure water is about mol/l at 25 C.

32 Ionization of Water Since [H + ] is mol/l at 25 C, the hydroxide ion concentration [OH ] must also be mol/l at 25 C. H 2 O(l) H + (aq) + OH (aq) At 25 C: [H + ][OH ] = ( )(1 x 10 7 ) = 1.0 x This is the ionization constant of water, K w.

33 [H + ] and [OH ] Relationship At 25 C, [H + ][OH ] = 1.0 x So if we know the [H + ], we can calculate [OH ]. What is the [OH ] if [H + ] = 0.1 M? [H + ][OH ] = 1.0 x (0.1)[OH ] = 1.0 x [OH ] = 1.0 x 10 13

34 The ph Concept Recall that ph is a measure of the acidity of a solution. A neutral solution has a ph of 7, an acidic solution has a ph less than 7, and a basic solution has a ph greater than 7. The ph scale uses powers of 10 to express the hydrogen ion concentration. Mathematically, ph = log[h + ] [H + ] is the molar hydrogen ion concentration.

35 Calculating ph What is the ph if the hydrogen ion concentration in a vinegar solution is M? ph = log[h + ] ph = log(0.001) ph = ( 3) = 3 The ph of the vinegar is 3, so the vinegar is acidic.

36 Calculating [H + ] from ph If we rearrange the ph equation for [H + ], we get: [H + ] = 10 ph Milk has a ph of 6. What is the concentration of hydrogen ion in milk? [H + ] = 10 ph = 10 6 = M [H + ] = 1 x 10 6 M

37 Advanced ph Calculations What is the ph of blood with [H + ] = 4.8 x 10 8 M? ph = log[h + ] = log(4.8 x 10 8 ) = ( 3.82) ph = 3.82 What is the [H + ] in orange juice with a ph of 2.75? [H + ] = 10 ph = = M [H + ] = 2.75 x 10 3 M

38 Critical Thinking: Acid Rain Nitrogen oxides and sulfur oxides, produced from the combustion of fossil fuels, react with rainwater to produce nitric and sulfuric acids. These strong acids reduce the ph of rainwater. Acid rain refers to rain with a ph 5 or below. Acid rain can cause corrosion of metal and degradation of limestone and marble statues.

39 Strong and Weak Electrolytes An aqueous solution that is a good conductor of electricity is a strong electrolyte. An aqueous solution that is a poor conductor of electricity is a weak electrolyte. The greater the degree of ionization or dissociation is, the greater the conductivity of the solution.

40 Electrolyte Strength Weak acids and bases are weak electrolytes. Strong acids and bases are strong electrolytes. Insoluble ionic compounds are weak electrolytes. Soluble ionic compounds are strong electrolytes.

41 Strengths of Electrolytes

42 Total Ionic Equations The concept of ionization allows us to portray ionic solutions more accurately by showing strong electrolytes in their ionized form. HCl(aq) + NaOH(aq) NaCl(aq) + H 2 O(l) Write strong acids and bases and soluble ionic compounds as ions. H + (aq) + Cl (aq) + Na + (aq) + OH (aq) Na + (aq) + Cl (aq) + H 2 O(l) This is the total ionic equation. Each species is written as it predominantly exists in solution.

43 Net Ionic Equations H + (aq) + Cl (aq) + Na + (aq) + OH (aq) Na + (aq) + Cl (aq) + H 2 O(l) Notice that Na + and Cl appear on both sides of the above-noted equation. They are spectator ions. Spectator ions are in the solution, but do not participate in the overall reaction. We can cancel out the spectator ions to give the net ionic equation. The net ionic equation is as follows: H + (aq) + OH (aq) H 2 O(l)

44 Guidelines for Writing Net Ionic Equations Complete and balance the nonionized chemical equation. Convert the nonionized equation into the total ionic equation. Write strong electrolytes in the ionized form. Write water and dissolved gases in the nonionized form. Cancel spectator ions to obtain the net ionic equation. If all species are eliminated, there is no reaction.

45 Guidelines for Writing Net Ionic Equations, Continued If all species are eliminated, there is no reaction. Check each ion or atom on both sides of the equation. The total charge (positive or negative) on the reactants side of the equation must equal the total charge on the products side of the equation.

46 Chapter Summary ph is a measure of the acidity of a solution. The typical range for ph is 0 to 14. Neutral solutions have a ph of 7. Below are some properties of acids and bases:

47 Chapter Summary, Continued An Arrhenius acid is a substance that ionizes in water to produce hydrogen ions. An Arrhenius base is a substance that ionizes in water to release hydroxide ions. A Brønsted Lowry acid is a substance that donates a hydrogen ion to any other substance. It is a proton donor. A Brønsted Lowry base is a substance that accepts a hydrogen ion. It is a proton acceptor.

48 Chapter Summary, Continued In an aqueous solution, [H + ][OH ] = 1.0 x This is the ionization constant of water, K w. ph = log[h + ] [H + ] = 10 ph Strong electrolytes are mostly dissociated in solution. Weak electrolytes are slightly dissociated in solution.

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