There are four atoms of hydrogen shown on the reactant side. How many total atoms of hydrogen must be on the product side
To determine the number of hydrogen atoms on the product side, we need to look at the balanced chemical equation. The number of hydrogen atoms must be the same on both sides of the equation.
If there are four hydrogen atoms on the reactant side, there must also be four hydrogen atoms on the product side.
To determine the total number of hydrogen atoms on the product side, we need to know the specific chemical reaction. Could you provide the balanced chemical equation?
To determine the number of total atoms of hydrogen on the product side, we need to understand the concept of balancing a chemical equation.
1. Start by identifying the balanced chemical equation in question, for example:
H2 + O2 → H2O
2. In this equation, the reactant side has "H2," which means there are two hydrogen atoms present in one molecule of hydrogen gas.
Therefore, if there are four atoms of hydrogen on the reactant side (4 H2), we can calculate the total number of hydrogen atoms.
4 H2 (hydrogen gas) x 2 (hydrogen atoms per molecule) = 8 hydrogen atoms on the reactant side.
3. Next, we examine the product side of the equation, which has H2O. H2O contains two hydrogen atoms in each molecule.
4. Since we already determined that there are 8 hydrogen atoms on the reactant side, we need to find the number of water molecules needed to balance the equation.
8 hydrogen atoms ÷ 2 (hydrogen atoms per H2O molecule) = 4 H2O molecules on the product side.
5. Finally, multiplying the number of H2O molecules by the number of hydrogen atoms per water molecule will give us the total number of hydrogen atoms on the product side.
4 H2O molecules x 2 (hydrogen atoms per H2O molecule) = 8 hydrogen atoms on the product side.
Therefore, the total number of hydrogen atoms on the product side is 8.