Iron core height in water react according to the equation shown table, shows the atomic masses of the elements involved in the reaction what is the total mass of the reactants?
It seems there may be a bit of confusion in the way your question is phrased. If you are referring to a chemical reaction involving iron (Fe) and water (H2O), then you might be talking about the rusting process where iron reacts with water and oxygen to form hydrated iron(III) oxide, also known as rust. The simplified chemical equation for the rusting of iron is:
4Fe + 3O2 + 6H2O → 4Fe(OH)3
However, you mention "iron core height," which is unclear in the context of chemical reactions. If you meant "iron core," this might refer to the iron core of a transformer or other electrical component reacting with water, which is not a standard chemical reaction and would likely just be a case of physical damage or corrosion.
To give you accurate information on the total mass of the reactants, I would need to know the exact chemical equation you are referring to. Remember that the law of conservation of mass states that the mass of the reactants in a chemical reaction is equal to the mass of the products.
If you are talking about the rusting of iron mentioned above, we can calculate the mass of the reactants if given the number of moles reacting. However, without this information or a clear understanding of the reaction you are referring to, it is not possible to provide an accurate answer.
If you can clarify the reaction and provide the "equation shown table" or the specific atomic masses of the elements involved, I can help you calculate the total mass of the reactants.