3: Acid-Base Chemistry

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3.1: Acid-Base Theories
3.2: Brønsted-Lowry Model
The Br??nsted-Lowry acid-base concept focuses on hydrogen ion (\(H^+\)) transfer, extending the acid-base definition beyond aqueous solutions. A Br??nsted acid donates \(H^+\) to a base, while a Br??nsted base accepts it. This model adapts to diverse environments, handling non-water reactions like hydrochloric acid with ammonia. The concept highlights conjugate acid-base pairs, emphasizing a reciprocal strength relationship; stronger acids have weaker conjugate bases and vice versa.
3.3: Acidity of Binary Hydrides
Binary hydrides are compounds formed between elements and hydrogen, acting as Br??nsted acids or bases depending on their position in the periodic table. Electronegativity and bond strength influence the acidity, with acidic hydrides more common among nonmetals. Hydrides of electropositive metals like NaH and CaH2 act as bases. Acidity increases across a period due to increased electronegativity and polarization, and down a group due to weaker bonds.
3.4: Acidity of Oxoacids
3.5: Acidity of Metal Cations
Aqueous solutions of simple salts of metal ions can also be acidic, even though a metal ion cannot donate a proton directly to water to produce hydronium ions. Instead, a metal ion can act as a Lewis acid and interact with water, a Lewis base, by coordinating to a lone pair of electrons on the oxygen atom to form a hydrated metal ion.

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