Ethyl acetate combustion equation related literature describes
There is ethyl acetate today, and the reaction of its combustion is related to the principle of chemical change. Ethyl acetate, an organic compound, also has unique properties.

When burned, it combines with oxygen. Looking at the reaction equation, ethyl acetate ($C_ {4} H_ {8} O_ {2} $) and oxygen ($O_ {2} $) interact under combustion conditions.

The equation is: $C_ {4} H_ {8} O_ {2} + 5O_ {2}\ stackrel {ignited }{=\!=\!=} {2} + 4H_ {2} O $. In this reaction, the ethyl acetate molecule and a sufficient amount of oxygen are ignited and excited. The carbon and hydrogen elements in ethyl acetate combine with oxygen respectively to form carbon dioxide ($CO_ {2} $) and water ($H_ {2} O $).

Carbon in ethyl acetate is converted into carbon dioxide after combustion, and hydrogen becomes water. This reaction follows the law of conservation of mass, and the number of atoms of each element is equal before and after the reaction. Oxygen is a combustion aid, providing the necessary conditions for the combustion of ethyl acetate, so that the chemical energy contained in it is released in the form of heat and light energy. Therefore, this combustion change is of great significance in many fields such as chemical industry and energy.