Answered

Discover a wealth of knowledge at Westonci.ca, where experts provide answers to your most pressing questions. Get detailed and accurate answers to your questions from a community of experts on our comprehensive Q&A platform. Experience the convenience of finding accurate answers to your questions from knowledgeable experts on our platform.

Use the following balanced equation:
[tex]\[
3 \text{Ba} + \text{Al}_2\left( \text{SO}_4\right)_3 \rightarrow 2 \text{Al} + 3 \text{BaSO}_4
\][/tex]

If you have 0.65 moles of [tex]\(\text{Ba}\)[/tex] and 0.50 moles of [tex]\(\text{Al}_2\left( \text{SO}_4\right)_3\)[/tex], what is the excess reactant?

Sagot :

GinnyAnswer
To determine the excess reactant in the reaction given by the balanced equation:
[tex]$ 3 \, \text{Ba} + \text{Al}_2(\text{SO}_4)_3 \rightarrow 2 \, \text{Al} + 3 \, \text{BaSO}_4 $[/tex]
where we have 0.65 moles of [tex]\(\text{Ba}\)[/tex] and 0.50 moles of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex], we need to follow these steps:

1. Identify the mole ratio from the balanced equation:
- According to the balanced equation, 3 moles of [tex]\(\text{Ba}\)[/tex] react with 1 mole of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex].

2. Calculate the moles of [tex]\(\text{Ba}\)[/tex] required to completely react with 0.50 moles of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex]:
- For 1 mole of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex], 3 moles of [tex]\(\text{Ba}\)[/tex] are required.
- Therefore, for 0.50 moles of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex]:
[tex]$ \text{Moles of Ba required} = 0.50 \, \text{moles of } \text{Al}_2(\text{SO}_4)_3 \times 3 = 1.5 \, \text{moles of Ba} $[/tex]

3. Compare the moles of [tex]\(\text{Ba}\)[/tex] available to the moles of [tex]\(\text{Ba}\)[/tex] required:
- We have 0.65 moles of [tex]\(\text{Ba}\)[/tex] available.
- We need 1.5 moles of [tex]\(\text{Ba}\)[/tex] to fully react with 0.50 moles of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex].

4. Determine the limiting reactant and the excess reactant:
- Since we only have 0.65 moles of [tex]\(\text{Ba}\)[/tex], which is less than the 1.5 moles required, [tex]\(\text{Ba}\)[/tex] is the limiting reactant.
- This means [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex] will be the excess reactant.

5. Calculate the amount of the excess reactant remaining after the reaction:
- First, calculate how much [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex] will react with the available [tex]\(\text{Ba}\)[/tex]:
[tex]$ \text{Moles of } \text{Al}_2(\text{SO}_4)_3 \text{ reacting} = \frac{0.65 \, \text{moles of Ba}}{3} = \frac{0.65}{3} \approx 0.2167 \text{ moles of } \text{Al}_2(\text{SO}_4)_3 $[/tex]
- Subtract the moles of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex] that have reacted from the initial amount:
[tex]$ \text{Excess amount of } \text{Al}_2(\text{SO}_4)_3 = 0.50 \, \text{moles} - 0.2167 \, \text{moles} = 0.2833 \, \text{moles} $[/tex]

Therefore, the excess reactant is [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex], and the amount of [tex]\(\text{Al}_2(\text{SO}_4)_3\)[/tex] that remains unreacted is approximately 0.2833 moles.
Thank you for choosing our platform. We're dedicated to providing the best answers for all your questions. Visit us again. We hope you found what you were looking for. Feel free to revisit us for more answers and updated information. Westonci.ca is committed to providing accurate answers. Come back soon for more trustworthy information.