The mass of the reactants can be known.
The Law of Conservation of Mass states that mass cannot be created or destroyed in a chemical reaction, only rearranged. By balancing the chemical equation in the diagram and ensuring that the total mass of the reactants equals the total mass of the products, we can show that no mass is lost during the reaction. Each atom present in the reactants will also be present in the products.
Because the mass of the reactants must equal the mass of the products due to the Law of Conservation of Mass. By balancing the equation you show the correct proportions of chemicals.
Through his experiments, John Dalton was able to show that, even through chemical reactions, the beginning mass of the reactants and the final mass of the products were equal.
Because there are three groups in substance Q and substance R, and there are three atoms in substance P.
A balanced chemical equation demonstrates the law of conservation of mass because the total mass of the reactants equals the total mass of the products. This means that no atoms are created or destroyed during a chemical reaction; they are simply rearranged to form new substances.
NaCl doesn't undergo a chemical reaction with NaOH, so you wouldn't be able to tell.
Skeleton equations do not show the relative amounts of reactants and products (are "unbalanced"). Balanced equations do show the relative amounts of the reactants and products.
A properly written chemical equation will always show the same number of atoms of each elemental on each side, showing that no atoms are created or destroyed in the chemical reaction.
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Because the Balanced equation can correctly add the reactants and it will equal the sum of the products.If a chemical equation is balanced correctly, there will be the same number of each element on both sides. Since each element has a given and known mass, the total mass on each side of the balanced equation must be equal.
Balanced chemical equations demonstrate the conservation of mass and atoms in a chemical reaction. They show the ratio of reactants and products involved in a reaction and help predict the outcomes of chemical reactions.
These coefficients show the number of molecules (and the amount of substance) involved in the chemical reaction.