Chapter 16: Aqueous Acid-Base Equilibria
- Page ID
- 28589
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- Chapter 16.1: The Autoionization of Water
- This page covers acid-base theories, focusing on Arrhenius, Brønsted-Lowry, and Lewis definitions. It highlights water's amphiprotic nature and autoionization, detailing the ion-product constant (Kw) and its implications for hydronium and hydroxide ion concentrations in equilibrium. The relationship between pH, pOH, and Kw is explored, with example calculations demonstrating pH determination.
- Chapter 16.2: A Qualitative Description of Acid-Base Equilibria
- This textbook page covers acid-base reactions using the Brønsted–Lowry model, emphasizing conjugate acid-base pairs, equilibrium constants (Ka and Kb), and their significance. It discusses weak bases and their ionization in water, introducing relationships between Ka, Kb, and Kw. The page explains acid strength in various solvents, highlighting how metals influence acidity and pH in salt solutions.
- Chapter 16.3: Molecular Structure and Acid-Base Strength
- This page covers the factors affecting acidity and basicity of molecules, emphasizing bond strength, stability of conjugate bases, and the role of electronegativity and inductive effects. It discusses the acidity trends in various acids and oxoacids, as well as the influence of electron delocalization in oxoanions. Key concepts include the relationship between molecular structure and acid/base strength, alongside exercises for applying these principles.
- Chapter 16.4: Quantitative Aspects of Acid-Base Equilibria
- This page provides a detailed overview of quantitative analysis in acid-base equilibria, focusing on calculating ionization constants (Ka and Kb), pH, and percent ionization for weak acids and bases. It discusses methods for determining equilibrium concentrations, emphasizes the influence of concentration on percent ionization, and includes examples and case studies to illustrate these concepts.
- Chapter 16.5: Acid-Base Titrations
- This page covers the principles and calculations of pH during acid-base titrations, focusing on strong and weak acids and bases. It explains titration curves, equilibrium states, and the impact of different concentrations on pH changes, particularly at equivalence points. Specific attention is given to calculations involving stoichiometry, the importance of pKa and Kb values, and the selection of appropriate pH indicators.
- Chapter 16.6: Buffers
- This page explains the concept of buffers, critical for maintaining stable pH in biological systems despite acid-base fluctuations. It details the common ion effect and the ionization of weak acids like formic acid in aqueous solutions. The Henderson-Hasselbalch equation is introduced to calculate pH based on the concentrations of weak acids and their conjugate bases.
- Chapter 16.7: End of Chapter Material
- This page covers application problems in biochemistry, examining lactic acid effects during exercise, pH calculations at different temperatures, and properties of substances like diphenhydramine and epinephrine. It discusses how fluoroacetic acid and aspirin influence physiological responses and explores blood chemistry implications of respiratory conditions like emphysema. Key calculations and necessary conditions for these biochemical concepts are emphasized.