CO2
Reactants are to the left in a chemical equation.
The molecules on the left side of the arrow in a chemical equation are the reactants. They are the starting substances that undergo chemical reactions to form products.
An endothermic reaction in an equation is typically indicated by the presence of heat as a reactant. For example, in a chemical equation, if heat is shown as a reactant (usually on the left side of the arrow), it suggests that the reaction requires energy input to proceed, making it an endothermic reaction.
The substance shown on the right side of a chemical equation is called the product. It is the result of a chemical reaction between the reactants on the left side of the equation.
heat is included as a reactant in the reaction - apex
Reactants are to the left in a chemical equation.
The molecules on the left side of the arrow in a chemical equation are the reactants. They are the starting substances that undergo chemical reactions to form products.
An endothermic reaction in an equation is typically indicated by the presence of heat as a reactant. For example, in a chemical equation, if heat is shown as a reactant (usually on the left side of the arrow), it suggests that the reaction requires energy input to proceed, making it an endothermic reaction.
The substance shown on the right side of a chemical equation is called the product. It is the result of a chemical reaction between the reactants on the left side of the equation.
heat is included as a reactant in the reaction - apex
In a balanced equation for the reaction, the coefficient appearing immediately before the formula for a reactant describes the number of moles of that reactant involved in the reaction shown by the equation.
because of glucose
The reaction shown in the thermochemical equation is an exothermic reaction. This is because heat is a reactant (on the left side of the equation) and is released during the reaction.
It shows the preservation of mass and of matter.
The law of conservation of mass is shown by a balanced chemical equation, which states that matter cannot be created or destroyed in a chemical reaction. This means that the number of atoms of each element must be the same on both sides of the equation.
There is no answerable version of this question, which asks about a certainequation not shown in the question.Further, there is no answerable form of the question. Generally the element that has the largest number of molecules depends on "valence" but all molecules in a given equation could have exactly the same number. There is no way to know.There are already questions that ask about this in answerable forms.
A chemical reaction can be symbolically represented using a chemical equation, where reactants are shown on the left side and products are shown on the right side. The equation includes chemical formulas of the substances involved and indicates the balance of atoms before and after the reaction.