Acid-base titration

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An acid-base titration is the determination of the concentration of an acid or base by exactly neutralizing the acid or base with an acid or base of known concentration. This allows for quantitative analysis of the concentration of an unknown acid or base solution. It makes use of the neutralization reaction that occurs between acids and bases. pKa and Ka (acid constants) can also be determined from a pH titration graph.

Acid-base titrations can also be used to find percent purity of chemicals.

Video Acid-base titration

Alkalimetry and acidimetry

Alkalimetry and acidimetry are a kind of volumetric analysis in which the fundamental reaction is a neutralization reaction. Alkalimetry is the specialized analytic use of acid-base titration to determine the concentration of a basic (synonymous to alkaline) substance. Acidimetry, sometimes spelled acidometry, is the same concept of specialized analytic acid-base titration, but for an acidic substance.

Maps Acid-base titration

Equipment

The key equipment used in a titration are:

• Burette
• White tile - used to see a colour change in the solution
• Pipette
• pH indicator (the one used varies depending on the reactants)
• Erlenmeyer flask / Conical flask
• Titrant or titrator (a standard solution of known concentration, a common one is aqueous sodium carbonate)
• Analyte or titrand (solution of unknown concentration)

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Method

Before starting the titration a suitable pH indicator must be chosen. The equivalence point of the reaction, the point at which equivalent amounts of the reactants have reacted, will have a pH dependent on the relative strengths of the acid and base used. The pH of the equivalence point can be estimated using the following rules:

• A strong acid will react with a strong base to form a neutral (pH = 7) solution.
• A strong acid will react with a weak base to form an acidic (pH < 7) solution.
• A weak acid will react with a strong base to form a basic (pH > 7) solution.

When a weak acid reacts with a weak base, the equivalence point solution will be basic if the base is stronger and acidic if the acid is stronger. If both are of equal strength, then the equivalence pH will be neutral. However, weak acids are not often titrated against weak bases because the colour change shown with the indicator is often quick, and therefore very difficult for the observer to see the change of colour.

The point at which the indicator changes colour is called the end point. A suitable indicator should be chosen, preferably one that will experience a change in colour (an end point) close to the equivalence point of the reaction.

First, the burette should be rinsed with the standard solution, the pipette with the unknown solution, and the conical flask with distilled water.

Secondly, a known volume of the unknown concentration solution should be taken with the pipette and placed into the conical flask, along with a small amount of the indicator chosen.

The known solution should then be allowed out of the burette, into the conical flask. At this stage we want a rough estimate of the amount of this solution it took to neutralize the unknown solution. The solution should be let out of the burette until the indicator changes colour and the value on the burette should be recorded. This is the first (or rough) titration volume and should be excluded from any calculation.

At least three more titrations should be performed, this time more accurately, taking into account roughly where the end point will occur. The initial and final readings on the burette (prior to starting the titration and at the end point, respectively) should be recorded. Subtracting the initial volume from the final volume will yield the amount of titrant used to reach the end point. The end point is reached when the indicator just changes colour permanently.

Acid-base titration is performed with a bromothymol blue indicator, when it is a strong acid - strong base titration, a phenolphthalein indicator in weak acid - strong base reactions, and a methyl orange indicator for strong acid - weak base reactions. If the base is off the scale, i.e. a pH of >13.5, and the acid has a pH > 5.5, then an Alizarine yellow indicator may be used. On the other hand, if the acid is off the scale, i.e. a pH of <0.5, and the base has a pH < 8.5, then a Thymol Blue indicator may be used.

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Titration of weak acid

The pH of a weak acid solution being titrated with a strong base solution can be found at different points along the way. These points fall into one of four categories:

1. initial pH
2. pH before the equivalence point
3. pH at the equivalence point
4. pH after the equivalence point

for more rigorous calculation, using an RICE chart is required. In fact the equations below are a simplification of the RICE chart.

Single formula

More accurately, a single formula that describes the titration of a weak acid with a strong base from start to finish is given below:

${\displaystyle \phi ={\frac {C_{b}V_{b}}{C_{a}V_{a}}}={\frac {\alpha _{{\ce {A^-}}}-{\frac {{\ce {[H+] - [OH^-]}}}{C_{a}}}}{1+{\frac {{\ce {[H+] - [OH^-]}}}{C_{b}}}}}}$

${\displaystyle \alpha _{{\ce {A^-}}}={\frac {K_{a}}{[{\ce {H+}}]+K_{a}}}}$

• ? = fraction of completion of the titration (? < 1 is before the equivalence point, ? = 1 is the equivalence point, and ? > 1 is after the equivalence point)
• ${\displaystyle C_{a},C_{b}}$ = the concentrations of the acid and base respectively
• ${\displaystyle V_{a},V_{b}}$ = the volumes of the acid and base respectively
• ${\displaystyle \alpha _{{\ce {A^-}}}}$ = the fraction of the weak acid that is ionized
• ${\displaystyle K_{a}}$ = the dissociation constant for the acid
• ${\displaystyle {\ce {[H+], [OH^-]}}}$ = concentrations of the H⁺ and OH^- ions respectively

This formula is somewhat cumbersome, but does describe the titration curve as a single equation.

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Gallery

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Graphical methods

The titration process creates solutions with compositions ranging from pure acid to pure base. Identifying the pH associated with any stage in the titration process is relatively simple for monoprotic acids and bases. The presence of more than one acid or base group complicates these computations. Graphical methods, such as the equiligraph, have long been used to account for the interaction of coupled equilibria. These graphical solution methods are simple to implement, however they are infrequently used.

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See also

• Titration
• Titration curve
• Equivalence point
• Acid dissociation constant
• Acid-base reaction
• Henderson-Hasselbalch equation

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References

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External links

• Graphical method to solve acid-base problems, including titrations
• Graphic and numerical solver for general acid-base problems - Software Program for phone and tablets

Source of the article : Wikipedia