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When you add acidified KMnO4 (potassium permanganate) solution to an aqueous suspension of cinnamic acid, several reactions can occur depending on the conditions and concentrations involved. However, one possible reaction is the oxidation of cinnamic acid to produce benzoic acid.

The acidified KMnO4 solution serves as an oxidizing agent in this reaction. Potassium permanganate (KMnO4) in an acidic medium can provide oxygen atoms, leading to the oxidation of organic compounds. In the presence of acid, the Mn(VII) species in KMnO4 is reduced to Mn(II) while the organic compound is oxidized.

The reaction between cinnamic acid and acidified KMnO4 can be summarized as follows:

Cinnamic acid + KMnO4 + H+ → Benzoic acid + Mn2+ + K+ + H2O

In this reaction, cinnamic acid is oxidized to benzoic acid, and the purple color of the KMnO4 solution may fade as the Mn(VII) is reduced to Mn(II). The potassium ions (K+) and water (H2O) are spectator ions and do not actively participate in the reaction.

It's important to note that the reaction may be influenced by factors such as the concentration of cinnamic acid, KMnO4, and the acidity of the solution. In some cases, side reactions or further oxidations can occur, leading to the formation of additional products. Additionally, reaction conditions such as temperature and reaction time can also affect the outcome.

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