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HSAB is an acronym for "hard and soft (Lewis) acids and bases".HSAB is widely used in chemistry for explaining the stability of compounds, reaction mechanisms and pathways. It assigns the terms 'hard' or 'soft', and 'acid' or 'base' to chemical species.
Strong bases are leveling solvents for acids, weak bases are differentiating solvents for acids. In a leveling solvent, many acids are completely dissociated and are thus of the same strength. All acids tend to become indistinguishable in strength when dissolved in strongly basic solvents owing to the greater affinity of strong bases for protons.
In chemistry, an acid–base reaction is a chemical reaction that occurs between an acid and a base.It can be used to determine pH via titration.Several theoretical frameworks provide alternative conceptions of the reaction mechanisms and their application in solving related problems; these are called the acid–base theories, for example, Brønsted–Lowry acid–base theory.
Lewis acids reacting with Lewis bases in gas phase and non-aqueous solvents have been classified in the ECW model, and it has been shown that there is no one order of acid strengths. [12] The relative acceptor strength of Lewis acids toward a series of bases, versus other Lewis acids, can be illustrated by C-B plots.
If a chemical is a strong acid, its conjugate base will be weak. [3] An example of this case would be the splitting of hydrochloric acid HCl in water. Since HCl is a strong acid (it splits up to a large extent), its conjugate base (Cl −) will be weak. Therefore, in this system, most H + will be hydronium ions H 3 O +
This can be used for weak bases and strong bases. [8] An example of an acidimetric titration involving a strong base is as follows: Ba(OH) 2 + 2 H + → Ba 2+ + 2 H 2 O. In this case, the strong base (Ba(OH) 2) is neutralized by the acid until all of the base has reacted. This allows the viewer to calculate the concentration of the base from ...
However, the acids and bases must differ greatly in strength, e.g. one strong acid and one very weak acid. [1] Therefore, the two acids must have a pK a (or pK b) difference that is as large as possible. For example, the following can be separated: Very weak acids like phenols (pK a around 10) from stronger acids like carboxylic acids [1] (pK a ...
The situation is analogous to that of weak acids and strong bases. B + H 3 O + ⇌ BH + + H 2 O. Amines are examples of weak bases. The pH of the neutralized solution depends on the acid dissociation constant of the protonated base, pK a, or, equivalently, on the base association constant, pK b.