What acid, what mass (not volume!) what alcohol, what mass of that alcohol (not volume!)
To determine the limiting reagent, you need to compare the amount of each reactant in terms of moles. Convert the volumes of carboxylic acid and alcohol to moles, using the molarity of each solution. Whichever reactant produces fewer moles is the limiting reagent.
The limiting reagent is sodium hydroxide.
The one that runs out first in a reaction - is thoroughly accurate. There are quite a few other limiting reagents in limiting reactions - as well.
In this reaction, aluminum is the limiting reagent because it will be fully consumed before all the copper sulfate is used up. The aluminum will react with the copper sulfate to form aluminum sulfate and copper metal. Once all the aluminum has reacted, the reaction will stop.
the amount of limiting reagent
the amount of limiting reagent
The limiting reagent is sodium hydroxide.
The one that runs out first in a reaction - is thoroughly accurate. There are quite a few other limiting reagents in limiting reactions - as well.
To determine the limiting reagent, you must first determine moles of each reactant, and then look at the mole ratios among the reactants to see which one is in the least supply. That one will be the limiting reagent.
the amount of limiting reagent
the amount of limiting reagent
the amount of limiting reagent
In this reaction, aluminum is the limiting reagent because it will be fully consumed before all the copper sulfate is used up. The aluminum will react with the copper sulfate to form aluminum sulfate and copper metal. Once all the aluminum has reacted, the reaction will stop.
The limiting reagent is entirely used at the end of a chemical reaction.
The amountof product form will be limited by the amount of the limiting reagent
The amountof product form will be limited by the amount of the limiting reagent
Sodium hydroxide is the limiting reagent.
The amount of product formed will be limited by the amount of the limiting reagent.