If the step for digesting the precipitate were not followed, it could result in a different amount of limiting reactant. For example, some may get through and the calculated limiting reactant may actually be less than what is in there.
A decomposition reaction breaks down a compound into simpler substances. It does not involve limiting reactants or theoretical reactants, as these concepts are typically associated with reactions that involve multiple reactants forming products.
Reactants can be a mixture, compounds, a mixture of compounds and also elements. It depends on the reaction. Air is a mixture and is often a reactant for example.
If you have a solid precipitate /liquid mixture filtration is the better method of recovering the solid as any contaminant in the liquid can potentially be washed out. Evaporating the liquid to remove it would just deposit whatever residues there were onto the precipitate.
To filter a precipitate, first, set up a filtration apparatus using a funnel lined with filter paper placed over a receiving container. Pour the mixture containing the precipitate into the funnel, allowing the liquid to pass through while the solid precipitate remains on the filter paper. After all the liquid has filtered through, you can rinse the precipitate with a small amount of solvent to remove any impurities. Finally, allow the precipitate to dry if needed.
If the step for digesting the precipitate were not followed, it could result in a different amount of limiting reactant. For example, some may get through and the calculated limiting reactant may actually be less than what is in there.
When the limiting reactant in a chemical reaction is completely used, the reaction stops because there are no more reactants available to continue producing products. At this point, any excess reactants or products may still be present in the reaction mixture. The amount of product formed will be determined by the amount of limiting reactant that was originally present.
A decomposition reaction breaks down a compound into simpler substances. It does not involve limiting reactants or theoretical reactants, as these concepts are typically associated with reactions that involve multiple reactants forming products.
Are you talking about precipitate
This is a limiting reagent stoichiometry problem, so that means you have to run the calculations twice; once for 5 grams of silver and once for 5 grams of sulfur. When you do this, you'll find that for 5 grams of silver (and an excess of sulfur) you would get 5.68 g of product, and for 5 grams of sulfur (and an excess of silver) you would get 39.52 g of product. So, you have to go with the less of the two amounts, because that's the most you can ever produce. So the answer is 5.68 g of silver(I) sulfide, with silver being the limiting reagent.
Reactants can be a mixture, compounds, a mixture of compounds and also elements. It depends on the reaction. Air is a mixture and is often a reactant for example.
mech. mixture are hetrogenous mixture while solution is the one that reactant dissolved completly(homogenous)
Magnesium hydride is a compound.
sugar itself is not a mixture, now dissolved in water is homogeneous, increasing quantity can lead to hetergeneous mixture because of precipitate
None of both: it is a mixture, not reactive at all: look at the sea!
The mixture of silver chloride with hydrochloric acid produces the complex ion [AgCl2] with a charge of -1. This is what will precipitate from the reaction.
When a solid is formed from two liquids, that is called a precipitate.