product
Since the product, K2SO4 has twice as many potassium atoms as the reactant, KNO3, we may conclude that it takes two moles of reactant to produce one mole of product. The sulfate and nitrate ions will not be the limiting factor.
This depends on the reaction involved.
Reactant
Reactant- glucose and product- carbon dioxide.
The limiting reactant is that reactant in a chemical reaction that will be used up first. Put another way, it is the reactant that is in the smallest supply. The way it controls the amount of product formed is that once it is used up, no more product can be formed, so the amount of product formed ultimately depends on the amount of the limiting reactant.
Silver nitrate can be either a reactant or a product, depending on the specific chemical reaction being considered. In some reactions, silver nitrate may be a reactant that undergoes a chemical change to form products. In other reactions, silver nitrate may be a product that is formed from the reaction of other reactants.
Sodium nitrate can be both a reactant and a product, depending on the reaction. It is commonly used as a reactant in the production of fertilizers, explosives, and other chemicals. It can also be a product of reactions involving sodium hydroxide and nitric acid.
silver nitrate
reactant
Since the product, K2SO4 has twice as many potassium atoms as the reactant, KNO3, we may conclude that it takes two moles of reactant to produce one mole of product. The sulfate and nitrate ions will not be the limiting factor.
This depends on the reaction involved.
Reactant
sulfur is a reactant
Oxygen is a reactant
Reactant- glucose and product- carbon dioxide.
Sugar can be both a reactant and a product, depending on the chemical reaction. For example, in the process of photosynthesis, sugar (glucose) is produced as a product. However, in the process of fermentation, sugar is a reactant that is broken down to produce other products like ethanol and carbon dioxide.
Glucose is a product of photosynthesis and a reactant in cellular respiration.