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www.reference.com/article/strong-vs-weak-acids-1e119dffb0a47a65

Strong acids and weak acids are defined by their ability to ionize. Strong acids usually ionize 100 percent in a solution, while a weak acid does not. For example, a strong acid placed in water immediately donates a hydrogen ion to the water to form a hydroxonium ion.

www.reference.com/science/concentrated-acid-ef3880b2a915dcac

A concentrated acid is an acid solution with a high molar concentration of hydrogen ions. For example, 16 mole hydrochloric acid has a higher concentration than a 0.5 mole solution of the same compound.

www.reference.com/article/strong-acid-32fd2bfac5d464a5

A strong acid is any chemical compound that completely dissociates once it comes into contact with water. The dissociation must be full in order for the compound to be considered a strong acid. Conversely, weak acids do not completely dissociate when they come into cont...

www.reference.com/article/hi-strong-acid-5694c273433dfa3a

The acid HI, known as hydroiodic acid, is one of a handful of strong acids. A strong acid is defined based on its acid dissociation constant, which measures how much the hydrogen atom dissociates when the acid is added to a solution.

www.reference.com/science/difference-between-strong-acid-weak-acid-724e3a4b4cdce5f1

A strong acid is one that is 100 percent ionized in a solution, and a weak acid is one that doesn't ionize fully when dissolved in water. Sulfuric acid is an example of a strong acid, and hydrogen fluoride is a weak acid.

www.reference.com/article/characterizes-strong-acid-base-a3f24d2d835175ff

Strong acids and bases are characterized by the way their constituent molecules are both fully ionized in a solution. Only a small number of acids and bases break down into nothing but their constituent ions when dissolved in water. Most of the seven strong acids, and e...

www.reference.com/article/strong-acids-also-strong-electrolytes-6d1601e68c71dd1d

Strong acids and strong bases dissociate completely into ions when in solution. The presence of free ions to move under an electric current makes them strong electrolytes.