What is the Difference Between Ostwald Theory and Quinonoid Theory?
🆚 Go to Comparative Table 🆚Ostwald Theory and Quinonoid Theory are two important concepts in analytical chemistry that explain the acid-base indicators' color changes. The key difference between these two theories lies in the nature of the indicator's forms in solution.
Ostwald Theory:
- Proposed by Wilhelm Ostwald in 1891, based on Arrhenius theory.
- Acid-base indicator is either a weak acid or a weak base, partially ionized in solution.
- Ionized and unionized forms have different colors.
- Indicator exists predominantly in one of the two forms depending on the nature of the medium.
Quinonoid Theory:
- Acid-base indicators exist in two tautomeric forms, namely benzenoid and quinonoid forms.
- One form exists in acidic solution, and the other form in basic solution.
- At least one of the tautomers is a weak acid or a weak base.
- The two forms possess two different colors, and the color change occurs due to the interconversion of one tautomeric form into the other.
In summary, Ostwald Theory explains the color change of acid-base indicators due to the partial ionization of the indicator in solution, while Quinonoid Theory suggests that the color change arises as a result of the equilibrium between two tautomeric forms with different structures and colors.
Comparative Table: Ostwald Theory vs Quinonoid Theory
The Ostwald Theory and Quinonoid Theory are two different concepts that explain the function of acid-base indicators. Here is a table comparing the key differences between the two theories:
Feature | Ostwald Theory | Quinonoid Theory |
---|---|---|
Origin | Proposed by Ostwald in 1891, based on Arrhenius theory | Based on the idea that acid-base indicators exist in two tautomeric forms (benzenoid and quinonoid) |
Mechanism | The color change of an indicator occurs due to the partial ionization of the indicator and the existence of ionized and unionized forms with different colors | The color change occurs due to the conversion from one tautomer to another as the pH of the solution changes |
Examples | Phenolphthalein is colorless in its unionized form and pink in its conjugate base form | Phenolphthalein has a benzenoid form in acidic solution and a quinonoid form in basic solution |
In summary, Ostwald Theory states that acid-base indicators are either weak acids or weak bases, and their color change is due to partial ionization, while Quinonoid Theory suggests that indicators exist in two tautomeric forms with different colors, and the color change occurs as the pH of the solution changes, causing a shift between the two forms.
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