The solubility in water of ionic compound X is measured and found to be 0.143 B at 10. °C. Calculate the volume of a saturated solution of X in water that mL would contain 210. mg of X at this temperature. Be sure your answer has the correct unit symbol and 3 significant digits.

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**Using Solubility to Calculate Solute Mass or Solution Volume** The solubility in water of ionic compound \( X \) is measured and found to be 0.143 g/mL at 10 °C. Calculate the volume of a saturated solution of \( X \) in water that would contain 2.10 mg of \( X \) at this temperature. Be sure your answer has the correct unit symbol and 3 significant digits. --- **Explanation:** To solve this problem, first convert the solute mass from milligrams to grams: \[ 2.10 \text{ mg} = 0.00210 \text{ g} \] Next, use the solubility to find the volume of the solution needed: \[ \text{Volume} = \frac{\text{mass of solute}}{\text{solubility}} = \frac{0.00210 \text{ g}}{0.143 \text{ g/mL}} \] Calculate the volume, and remember to express your final answer with the correct unit and significant figures.