You need to be more specific, but in general if 22.4g react completely then 22.4g are formed.
The amount of product formed in a reaction is determined by the stoichiometry of the reaction. Without the specific reaction given, we can't determine the grams of product produced from 22.4g of a reactant. The balanced chemical equation is needed to calculate the amount of product formed.
To determine the amount of CaCO3 formed, we need to know the molar ratio of water to CaCO3 in the chemical reaction. Without this information, it is not possible to calculate the amount of CaCO3 formed when 155g of water reacts.
product of the reaction.
Iron oxide is formed by the reaction of iron and oxygen in a 1:1 ratio by mass. Therefore, the 55 g of iron will react completely with 55 g of oxygen to form iron oxide.
They reacts and neutralized.End product will be a salt and water.
Copper reacts with oxygen in the air to form copper oxide.
43.2 grams of water
To determine the amount of CaCO3 formed, we need to know the molar ratio of water to CaCO3 in the chemical reaction. Without this information, it is not possible to calculate the amount of CaCO3 formed when 155g of water reacts.
When carbon reacts with oxygen to form carbon dioxide, carbon dioxide is the product of the reaction.
Iron oxide is formed by the reaction of iron and oxygen in a 1:1 ratio by mass. Therefore, the 55 g of iron will react completely with 55 g of oxygen to form iron oxide.
The product of the reaction.
product of the reaction.
They reacts and neutralized.End product will be a salt and water.
Yes, based on the law of conservation of mass, if 12.8 g of sodium reacts with 19.6 g of chlorine, the total mass of the reactants will equal the total mass of the products. Therefore, the total mass of the sodium chloride formed will be 32.4 g.
0,092 moles CaO
HCl, and you get water as another product.
20.8
To determine the amount of iron needed to react with 40 grams of iron(III) oxide, you should use the stoichiometry of the reaction. Calculate the molar mass of iron(III) oxide (Fe2O3) and determine the molar ratio between iron and iron(III) oxide in the balanced chemical equation. From there, you can calculate the amount of iron needed to fully react with 40 grams of iron(III) oxide.