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Ch.16 - Aqueous Equilibria: Acids & Bases
McMurry - Chemistry 8th Edition
McMurry8th EditionChemistryISBN: 9781292336145Not the one you use?Change textbook
All textbooksMcMurry 8th EditionCh.16 - Aqueous Equilibria: Acids & BasesProblem 2
Chapter 16, Problem 2

The following pictures represent equal volumes of aqueous solutions of three acids HA (A = X, Y, or Z); water molecules have been omitted for clarity. Which is the strongest acid?Three molecular representations of acids HX, HY, and HZ in aqueous solution for comparison.
(a) HX (b) HY (c) HZ (d) All three acids are strong acids and have equal strength.

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1
Identify the dissociation of each acid in the given images. The green spheres represent the conjugate base (A-), the red spheres represent the hydrogen ions (H+), and the white spheres represent the undissociated acid molecules (HA).
Count the number of dissociated hydrogen ions (H+) for each acid. The more H+ ions present, the stronger the acid.
Compare the number of dissociated H+ ions for HX, HY, and HZ.
Determine which acid has the highest number of dissociated H+ ions, indicating it is the strongest acid.
Conclude which acid (HX, HY, or HZ) is the strongest based on the dissociation comparison.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Acid Strength

Acid strength refers to the ability of an acid to donate protons (H⁺ ions) in solution. Strong acids completely dissociate in water, releasing all their protons, while weak acids only partially dissociate. The strength of an acid is often determined by its dissociation constant (Ka), with larger values indicating stronger acids.
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Molecular Structure and Polarity

The molecular structure and polarity of an acid influence its strength. Acids with highly electronegative atoms or groups can stabilize the negative charge of the conjugate base after proton donation, making them stronger. The arrangement of atoms and the presence of electronegative elements can affect the acid's ability to release protons.
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Comparative Analysis of Acids

To determine which acid is the strongest among several, a comparative analysis of their structures and dissociation behaviors is necessary. This involves examining factors such as bond strength, electronegativity, and the stability of the resulting conjugate bases. By evaluating these characteristics, one can predict which acid will more readily donate protons in solution.
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Related Practice
Textbook Question
What is the concentration of hydroxide ions 3OH-4 in a glass of wine with pH = 3.64? (LO 16.5, 16.6) (a) 2.3 * 10-4 M (b) 6.4 * 10-3 M (c) 6.8 * 10-9 M (d) 4.4 * 10-11 M
Textbook Question
Consider the conjugate bases, 1X-, Y-, Z-2 in Problem 2. If you mix equal concentrations of reactants and products, which of the following reactions will proceed to the left? (LO 16.3) (a) HX + Y- HY + X- (b) HX + Z- HZ + X- (c) HY + X- HX + Y- (d) HZ + Y- HY + Z-

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Textbook Question
Which of the following is a Brønsted-Lowry base, but not anArrhenius base? (LO 16.1)(a) HNO3 (b) CsOH(c) CH3NH2 (d) CH3OH
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Textbook Question
Which is the strongest acid? (LO 16.4) (a) HClO3 (b) HBrO3 (c) H2SO3 (d) H2TeO3