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What is the flow rate for an order of 1.4 g of ampicillin per hour via IV infusion using an ampicillin solution of 100 mg/mL?

A. 140 mL/hr
B. 44 mL/min
C. 0.14 mL/min
D. 14 mL/hr

Sagot :

GinnyAnsweridn
Sure, let's solve the problem step-by-step:

1. Understand the given data:
- Dosage of ampicillin: 1.4 grams per hour.
- Concentration of the ampicillin solution: 100 milligrams per milliliter.

2. Convert the dosage from grams to milligrams:
- Since 1 gram = 1000 milligrams, therefore 1.4 grams = 1.4 × 1000 milligrams = 1400 milligrams per hour.

3. Calculate the flow rate in mL per hour:
- We know that the concentration of the solution is 100 milligrams per milliliter.
- To find out how many milliliters of the solution are needed per hour, divide the total dosage (in milligrams) by the concentration (in milligrams per milliliter):

[tex]\[ \text{Flow rate in mL/hr} = \frac{\text{Dosage in mg/hr}}{\text{Concentration in mg/mL}} = \frac{1400 \, \text{mg/hr}}{100 \, \text{mg/mL}} = 14 \, \text{mL/hr} \][/tex]

4. Double-check the provided options to find the correct flow rate:
- 140 mL/hr
- 44 mL/min
- 0.14 mL/min
- 14 mL/hr

From our calculation, the correct flow rate is 14 mL/hr.

Therefore, the flow rate for the given prescription is 14 mL/hr.
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