Chapter 16 Sections 8-9. © 2009, Prentice-Hall, Inc. K a and K b K a and K b are related in this way: K a  K b = K w Therefore, if you know one of them,

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Presentation transcript:

Chapter 16 Sections 8-9

© 2009, Prentice-Hall, Inc. K a and K b K a and K b are related in this way: K a  K b = K w Therefore, if you know one of them, you can calculate the other.

© 2009, Prentice-Hall, Inc. Reactions of Anions with Water Anions are bases. As such, they can react with water in a hydrolysis reaction to form OH - and the conjugate acid: X - (aq) + H 2 O (l) HX (aq) + OH - (aq)

© 2009, Prentice-Hall, Inc. Reactions of Cations with Water Cations with acidic protons (like NH 4 + ) will lower the pH of a solution. Most metal cations that are hydrated in solution also lower the pH of the solution.

© 2009, Prentice-Hall, Inc. Reactions of Cations with Water Attraction between nonbonding electrons on oxygen and the metal causes a shift of the electron density in water. This makes the O-H bond more polar and the water more acidic. Greater charge and smaller size make a cation more acidic.

© 2009, Prentice-Hall, Inc. Effect of Cations and Anions 1.An anion that is the conjugate base of a strong acid will not affect the pH. 2.An anion that is the conjugate base of a weak acid will increase the pH. 3.A cation that is the conjugate acid of a weak base will decrease the pH.

© 2009, Prentice-Hall, Inc. Effect of Cations and Anions 4.Cations of the strong Arrhenius bases will not affect the pH. 5.Other metal ions will cause a decrease in pH. 6.When a solution contains both the conjugate base of a weak acid and the conjugate acid of a weak base, the affect on pH depends on the K a and K b values.

Sample Exercise Calculating K a or K b for a Conjugate Acid-Base Pair Calculate (a) the base-dissociation constant, K b, for the fluoride ion (F – ); (b) the aciddissociation constant, K a, for the ammonium ion (NH 4 + ). Solution Analyze: We are asked to determine dissociation constants for F –, the conjugate base of HF, and NH 4 +, the conjugate acid of NH 3. Plan: Although neither F – nor NH 4 + appears in the tables, we can find the tabulated values for ionization constants for HF and NH 3, and use the relationship between K a and K b to calculate the ionization constants for each of the conjugates. Solve: (a) K a for the weak acid, HF, is given in Table 16.2 and Appendix D as K a = 6.8 × We can use Equation to calculate K b for the conjugate base, F – : (b) K b for NH 3 is listed in Table 16.4 and in Appendix D as K b = 1.8 × Using Equation 16.40, we can calculate K a for the conjugate acid, NH 4 + :

Sample Exercise Calculating K a or K b for a Conjugate Acid-Base Pair (a) Which of the following anions has the largest base-dissociation constant: NO 2 –, PO 4 3–, or N 3 – ? (b) The base quinoline has the following structure: Its conjugate acid is listed in handbooks as having a pK a of What is the base dissociation constant for quinoline? Answers: (a) PO 4 3– (K b = 2.4 × ), (b) 7.9 × Practice Exercise

Sample Exercise Determining Whether Salt Solutions Are Acidic, Basic, or Neutral Determine whether aqueous solutions of each of the following salts will be acidic, basic, or neutral: (a) Ba(CH 3 COO) 2, (b) NH 4 Cl, (c) CH 3 NH 3 Br, (d) KNO 3, (e) Al(ClO 4 ) 3. Solution (a) This solution contains barium ions and acetate ions. The cation, Ba 2+, is an ion of one of the heavy alkaline earth metals and will therefore not affect the pH (summary point 4). The anion, CH 3 COO –, is the conjugate base of the weak acid CH 3 COOH and will hydrolyze to produce OH – ions, thereby making the solution basic (summary point 2). (b) This solution contains NH 4 + and Cl – ions. NH 4 + is the conjugate acid of a weak base (NH 3 ) and is therefore acidic (summary point 3). Cl – is the conjugate base of a strong acid (HCl) and therefore has no influence on the pH of the solution (summary point 1). Because the solution contains an ion that is acidic (NH 4 + ) and one that has no influence on pH (Cl – ), the solution of NH 4 Cl will be acidic. (c) This solution contains CH 3 NH 3 + and Br – ions. CH 3 NH 3 + is the conjugate acid of a weak base (CH 3 NH 2, an amine) and is therefore acidic (summary point 3). is the conjugate base of a strong acid (HBr) and is therefore pH-neutral (summary point 1). Because the solution contains one ion that is acidic and one that is neutral, the solution of CH 3 NH 3 Br will be acidic. (d) This solution contains the K + ion, which is a cation of group 1A, and the ion NO 3 –, which is the conjugate base of the strong acid HNO 3. Neither of the ions will react with water to any appreciable extent (summary points 1 and 4), making the solution neutral.

Sample Exercise Determining Whether Salt Solutions Are Acidic, Basic, or Neutral Solution (Continued) (e) This solution contains Al 3+ and ClO 4 – ions. Cations, such as Al 3+, that are not in groups 1A or 2A are acidic (summary point 5). The ClO 4 – ion is the conjugate base of a strong acid (HClO 4 ) and therefore does not affect pH (summary point 1). Thus, the solution of Al(ClO 4 ) 3 will be acidic.

Sample Exercise Predicting Whether the Solution of an Amphiprotic Anion is Acidic or Basic Predict whether the salt Na 2 HPO 4 will form an acidic solution or a basic solution on dissolving in water. Solution Analyze:This substance is an ionic compound composed of Na + and HPO 4 2– ions. Plan: We need to evaluate each ion, predicting whether each is acidic or basic. Because Na + is a cation of group 1A, we know that it has no influence on pH. It is merely a spectator ion in acid–base chemistry. Thus, our analysis of whether the solution is acidic or basic must focus on the behavior of the HPO 4 2– ion. We need to consider the fact that HPO 4 2– can act as either an acid or a base. The reaction with the larger equilibrium constant will determine whether the solution is acidic or basic Solve: The value of K a for Equation 16.45, as shown in Table 16.3, is 4.2 × We must calculate the value of K b for Equation from the value of K a for its conjugate acid, H 2 PO 4 –. We make use of the relationship shown in Equation We want to know K b for the base HPO 4 2–, knowing the value of K a for the conjugate acid HPO 4 2– :

Because K a for H 2 PO 4 – is 6.2 × (Table 16.3), we calculate K b for H 2 PO 4 2– to be 1.6 × This is more than 10 5 times larger than K a for H 2 PO 4 2– ; thus, the reaction shown in Equation predominates over that in Equation 16.45, and the solution will be basic.