the equation to perform the calculation is shown below.\n3.45 mol kmno₄ × $\frac{8 mol h_{2}o}{2 mol…

the equation to perform the calculation is shown below.\n3.45 mol kmno₄ × $\frac{8 mol h_{2}o}{2 mol kmno_{4}}$ \ndid you set up the equation correctly?\nyes, and i got the correct answer.\nyes, but i got the wrong answer because i made a mathematical error.\nno, i did not set up the equation correctly.

the equation to perform the calculation is shown below.\n3.45 mol kmno₄ × $\frac{8 mol h_{2}o}{2 mol kmno_{4}}$ \ndid you set up the equation correctly?\nyes, and i got the correct answer.\nyes, but i got the wrong answer because i made a mathematical error.\nno, i did not set up the equation correctly.

Answer

Explanation:

Step1: Analyze mole - ratio relationship

The given calculation is based on a mole - to - mole conversion. If there is a chemical reaction where the stoichiometric ratio between $\ce{KMnO4}$ and $\ce{H2O}$ is such that for every 2 moles of $\ce{KMnO4}$, 8 moles of $\ce{H2O}$ are involved. The setup $3.45\ mol\ \ce{KMnO4}\times\frac{8\ mol\ \ce{H2O}}{2\ mol\ \ce{KMnO4}}$ is correct as it uses the proper mole - ratio to convert the amount of $\ce{KMnO4}$ to the amount of $\ce{H2O}$.

Answer:

Yes, and I got the correct answer.