The equation CaO + SiO2 -> CaSiO3

Detailed information about the chemical equation:
The chemical equation represents the chemical reaction process between calcium oxide (CaO) and silicon dioxide (SiO₂) to create calcium silicate (CaSiO₃). In this equation, the mole number of each reactant and product is expressed through the coefficient in front of their chemical formula. This equation is balanced because the mole number of the chemical elements on both sides of the equation is equal.

Reaction conditions:
This reaction usually occurs at a high temperature. Calcium oxide (CaO) needs to be created from the burning of calcium at a high temperature. Silicon dioxide (SiO₂) also requires a high temperature to convert to a chemical compound state that can react.

Reaction process:
The reaction process starts with providing the necessary heat for calcium oxide and silicon dioxide to convert into a chemical compound state that can react. When these two substances come into contact with each other at a high temperature, they will combine to create calcium silicate.

Phenomena occurring:
When the reaction occurs, we can observe the phenomenon of the temperature rising. The initial mixture of calcium oxide and silicon dioxide gradually transitions to a new state, forming a new compound named calcium silicate.