Reaction of Barbituric Acid and Potassium Hydroxide
Fubarbituric acid is an organic compound. Its nature is specific, and when it encounters potassium hydroxide, it undergoes a wonderful change.

When the phase value of both is in a suitable temperature environment, in a good vessel, the barbituric acid molecule encounters potassium hydroxide, and the ionic phase is combined, such as the junction of the guest and the host. Potassium hydroxide is strongly alkaline, and its hydroxide ions ($OH ^ - $) are abnormally active, and tend to correspond to barbituric acid.

The structure of barbituric acid contains active groups that interact with hydroxide ions. Hydroxide ions attack its activity check point, causing the chemical bonds of barbituric acid to be translocated and rearranged. Hydrogen atoms combine with hydroxide ions to form water molecules; while the rest of the groups combine with potassium ions to form new compounds.

In this reaction, the energy changes, and the heat is dissipated or absorbed, depending on the specific situation. And the rate of the reaction is also controlled by various factors, such as the concentration of the reactants. If the concentration is high, the molecules will collide frequently and the reaction will progress rapidly. For example, if the temperature is high, the molecules will be active and the reaction will tend to be rapid.

After this reaction, a new product is obtained, and its properties are different from barbituric acid and potassium hydroxide. Or with different chemical activities, or with different physical properties, it can be used in various subsequent chemical and pharmaceutical processes, and is of great significance in scientific research and industrial progress.