Strong acid: Difference between revisions

{{Acids and bases}}

A '''strong acid''' is an [[acid]] that [[Ionization|ionizes]] completely in an [[aqueous solution]] by losing one [[proton]], according to the equation

:HA(aq) → H⁺(aq) + A⁻(aq)

For [[sulfuric acid]] which is [[diprotic acid|diprotic]], the "strong acid" designation refers only to dissociation of the first proton

:H₂SO₄(aq) → H⁺(aq) + HSO₄⁻(aq)

More precisely, the ac must be stronger in aqueous solution than [[hydronium]] ion, so strong acids are acids with a [[acid dissociation constant|p''K''_a]] < −1.74. An example is [[Hydrochloric acid|HCl]] for which pK_a = -6.3.<ref name="Jolly"/> This generally means that in aqueous solution at [[standard temperature and pressure]], the concentration of hydronium ions is equal to the concentration of strong acid introduced to the solution. While strong acids are generally assumed to be the most [[corrosive substance|corrosive]], this is not always true. The [[carborane]] [[superacid]] H(CHB₁₁Cl₁₁</sub>), which is one million times stronger than [[sulfuric acid]],<ref>George A. Olah, et. al. ''Superacid Chemistry'', 2nd ed., Wiley, p.&nbsp;41.</ref><ref>That is, the ability of the carborane superacid to protonate a given base (B) is one million times greater than a solution of sulfuric acid, so that the ratio [BH⁺] / [B] is one million times higher. The relative acidities of strong acids can be evaluated using the [[Hammett acidity function]].</ref> is entirely non-corrosive, whereas the [[weak acid]] [[hydrofluoric acid]] (HF) is extremely corrosive and can dissolve, among other things, glass and all metals except [[iridium]]{{Citation needed|date=January 2010}}.

In all other acid-water reactions, dissociation is not complete, so will be represented as an equilibrium, not a completed reaction. The typical definition of a [[weak acid]] is any acid that does not dissociate completely. The difference separating the [[acid dissociation constant]]s of strong acids from all other acids is so small that this is a reasonable demarcation.

Due to the complete dissociation of strong acids in aqueous solution, the concentration of hydronium ions in the water is equal to the total concentration (ionized and un-ionized) of the acid introduced to solution: [H⁺] = [A⁻] = [HA]_total and pH = −log[H⁺].

==Determining acid strength==

The strength of an acid, in comparison to other acids, can be determined without the use of [[pH]] calculations by observing the following characteristics:

# '''Electronegativity''': The higher the [[electronegativity|EN]] of a [[conjugate base]] in the same period, the more acidic.

# '''Atomic Radius''': With increasing atomic radius, acidity also increases. For example, HCl and HI, both strong acids, ionize 100% in water to become their respective ionic constituents. However, HI is stronger than HCl. This is because the atomic radius of an atom of iodine is much larger than that of a chlorine atom. As a result, the negative charge over the I^- anion is dispersed over a larger electron cloud and its attraction for the proton (H⁺) is not as strong as the same attraction in HCl. Therefore, HI is ionized (deprotonated) more readily.

# '''Charge''': The more positively charged a species is, the more acidic (neutral molecules can be stripped of protons more easily than anions, and cations are more acidic than comparable molecules).

==Some common strong acids (as defined above)==

(Strongest to the weakest)

* [[Hydroiodic acid]] HI ([[acid dissociation constant|pK_a]] = −9.3)<ref name="Jolly">William L. Jolly "Modern Inorganic Chemistry" (McGraw-Hill, 1984), p.177</ref>

* [[Hydrobromic acid]] HBr (pK_a = −8.7)<ref name="Jolly"/>

* [[Perchloric acid]] HClO₄ (pK_a ≈ −8)<ref name="Housecroft">{{Housecroft2nd|page=171}}</ref>

* [[Hydrochloric acid]] HCl (pK_a = −6.3)<ref name="Jolly"/>

* [[Sulfuric acid]] H₂SO₄ (first dissociation only, ''pK''_a1 ≈ −3)<ref name="Housecroft"/>

* [[p-Toluenesulfonic acid]] (pK_a = −2.8) Organic soluble strong acid

== Almost strong acids ==

These do not meet the strict criterion of being more acidic than H₃O⁺, although in very dilute solution they dissociate almost completely, so sometimes they are included as "strong acids"

* [[Hydronium ion]] H₃O⁺ (pK_a = -1.74). For purposes of simplicity, H₃O⁺ is often replaced in a chemical equation with H⁺. However, a bare proton does not exist free in water but instead is bound to one of the lone pairs of electrons on the H₂O molecule.

* [[Nitric acid]] HNO₃ (pK_a = -1.64)<ref name="Housecroft"/>

* [[Chloric acid]] HClO₃ (pK_a = -1.0)<ref name="Housecroft"/>

* Some chemists include [[bromic acid]] (HBrO₃){{Citation needed|date=June 2009}}, [[perbromic acid]] (HBrO₄){{Citation needed|date=June 2009}}, [[iodic acid]] (HIO₃){{Citation needed|date=June 2009}}, and [[periodic acid]] (HIO₄){{Citation needed|date=June 2009}} as strong acids, although these are not universally accepted.

===Extremely strong acids (as protonators)===

(Strongest to weakest)

* [[Fluoroantimonic acid]] H[SbF₆]

* [[Magic acid]] FSO₃HSbF₅

* [[Carborane superacid]] H(CHB₁₁Cl₁₁)

* [[Fluorosulfuric acid]] FSO₃H

* [[Triflic acid]] CF₃SO₃H

==References==

{{reflist}}

*Hill, John W., et al. "General Chemistry." 4th ed. New Jersey: Prentice Hall, 2005.

==External links==

* http://www.cm.utexas.edu/academic/courses/Spring2002/CH301/McDevitt/strong.htm

* http://jchemed.chem.wisc.edu/Journal/Issues/2000/Jul/abs849.html

* Titration of acids [http://www2.iq.usp.br/docente/gutz/Curtipot_.html - freeware for data analysis] and simulation of potentiometric [[titration curves]]

* Acids and Bases [http://www.sky-web.pwp.blueyonder.co.uk/Science/acids.htm - definitions]

[[Category:Acids]]

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