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What is the limiting reagent in CuSO4 5H2O?

What is the limiting reagent in CuSO4 5H2O?

We see that the copper(II) sulfate is the limiting reactant because it gives fewer moles of reaction.

Is CuSO4 a limiting reagent?

The ratio for each copper reactant to the desired copper product is 1:1. Hence we will end up with . 004 CuSO4. Now, in the case of using 7M H2SO4, the CuSO4 is the limiting reagent.

How do you find the limiting reactant of a mole?

If you’re given the moles present of each reactant, and asked to find the limiting reactant of a certain reaction, then the simplest way to find which is limiting is to divide each value by that substance’s respective coefficient in the (balanced) chemical equation; whichever value is smallest is the limiting reactant.

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What is the limiting reactant in aluminum and copper sulfate?

The copper (II) chloride will be your limiting reagent. The most important tool you’ll have at your disposal to solve this problem (or any stoichiometry problem, for that matter) is the mole ratio. Notice that you need 2 moles of aluminium to react with 3 moles of copper (II) chloride to produce 3 moles of copper.

Which reagent copper chloride or aluminum is the limiting reactant?

The limiting reactant in any reaction can be determined from the amount of the starting materials and the balanced chemical equation. That aluminum is in excess and the cupric chloride is the limiting reagent in the reaction is suggested by the title of the lab.

How do you find the limiting reactant quickly?

Re: How to find the limiting reactant easily and quickly The easiest way is to convert both reactant quantities into moles of the particular product that we are solving for. This will allow you to easily observe which one of the reactants produces the least amount of product and is, therefore, the limiting reactant.

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Why is copper chloride a limiting reactant?

This is because of the law of conservation of mass: which states that in any reaction the mass of the reactants must be equal to the mass of the products. This equation is a single replacement reaction in which an active metal (aluminum) replaces a less active metal (copper).

Is copper the limiting reagent?

So Copper II is the limiting reactant.