What volume of the stock solution (Part A) would contain the number of moles present in the diluted solution (Part B)? Express your answer with the appropriate units. > View Available Hint(s) volume = Value Units Submit

Part A is 1.43M of luminol solution and part B is 0.100 mol of luminol.

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## Chemistry Problem Explanation: Determining Volume of Stock Solution ### Context: In this problem, we are required to calculate the volume of a stock solution that contains a specific number of moles of a substance (in this case, luminol). This situation is common in chemistry when preparing solutions of a desired concentration by diluting a more concentrated stock solution. ### Given Information: - The number of moles of luminol in the diluted solution is \( \text{0.100 mol} \). ### Problem Statement: **Part C:** *What volume of the stock solution (from Part A) would contain the number of moles present in the diluted solution (Part B)? Express your answer with the appropriate units.* ### Instructions: You are expected to calculate and enter the required volume with the correct unit. ### Interface Explanation: - There is a hint section that can be expanded by clicking "View Available Hint(s)". - For entering your answer, there is a provided format: - **Volume = [Input Box for Value]** [Input Box for Units] ### Example Steps to Solve: 1. Identify the molarity (M) of the stock solution from Part A. 2. Use the formula: \[ \text{Volume of Stock Solution (L)} = \frac{\text{Number of Moles}}{\text{Molarity (M)}} \] 3. Input the calculated volume into the provided fields. 4. Ensure the units are in the correct format (e.g., liters, milliliters). ### Submission: After performing the calculation, input the volume and the units correctly, and then click the **Submit** button. Use the "Previous Answers" and "Correct" indicators to check if any previous submissions were correct. Let's proceed to solve the problem using the given data. Click "Next" to continue after entering your response. --- This guide explains the analytical process and walk-through to solve this chemistry problem correctly.