You're probably thinking of potassium chlorate, not potassium chloride. Potassium chlorate is a strong oxidizing agent and can cause rapid oxidation (combustion) with carbon and hydrogen-rich sugar.
sugars contain hydroxyl group that can act as an acid. and potassium chloride is a conjugate base acid pair. with the Chloride negative charge acting as a lewis base to abstract the hydroxyl proton of the sugar. The resultant negative charge can be stabilized by K+.
Comments
One is an oxidizer and the other one is the fuel.
Potassium Chloride And Sugar
You're probably thinking of potassium chlorate, not potassium chloride. Potassium chlorate is a strong oxidizing agent and can cause rapid oxidation (combustion) with carbon and hydrogen-rich sugar.
sugars contain hydroxyl group that can act as an acid. and potassium chloride is a conjugate base acid pair. with the Chloride negative charge acting as a lewis base to abstract the hydroxyl proton of the sugar. The resultant negative charge can be stabilized by K+.
You must be mistaken in your compounds. Potassium chloride does **not** react with sugar. Potassium chlorate, however, does.
For the best answers, search on this site https://shorturl.im/awyaa
C12H22O11 +8KClO3 --> 12CO2 + 11H2O + 8KCl