Answer :
To determine how many milliliters (ml) the patient will receive, follow these steps:
1. Understand the concentration: You are given that the concentration of Potassium Chloride is 6.7 milliequivalents per milliliter (mEq/ml).
2. Know the required dose: The patient needs to receive a total dose of 75 milliequivalents (mEq).
3. Use the formula: To find the volume in milliliters that contains the required 75 mEq, you can use the formula:
[tex]\[
\text{Volume (ml)} = \frac{\text{Dose (mEq)}}{\text{Concentration (mEq/ml)}}
\][/tex]
4. Plug in the values: Substitute the values you have into the formula:
[tex]\[
\text{Volume (ml)} = \frac{75 \, \text{mEq}}{6.7 \, \text{mEq/ml}}
\][/tex]
5. Calculate: When you divide 75 by 6.7, you get approximately 11.19 ml.
Therefore, the patient will receive approximately 11.19 ml of Potassium Chloride to meet the 75 mEq requirement.
1. Understand the concentration: You are given that the concentration of Potassium Chloride is 6.7 milliequivalents per milliliter (mEq/ml).
2. Know the required dose: The patient needs to receive a total dose of 75 milliequivalents (mEq).
3. Use the formula: To find the volume in milliliters that contains the required 75 mEq, you can use the formula:
[tex]\[
\text{Volume (ml)} = \frac{\text{Dose (mEq)}}{\text{Concentration (mEq/ml)}}
\][/tex]
4. Plug in the values: Substitute the values you have into the formula:
[tex]\[
\text{Volume (ml)} = \frac{75 \, \text{mEq}}{6.7 \, \text{mEq/ml}}
\][/tex]
5. Calculate: When you divide 75 by 6.7, you get approximately 11.19 ml.
Therefore, the patient will receive approximately 11.19 ml of Potassium Chloride to meet the 75 mEq requirement.