A nurse starts an infusion of 1500 mL of normal saline (NS) for a client at 8:45 am at a ﬂow rate of 2 mL/min. The tubing drop factor is 10 drops/mL.
Calculate the volume of ﬂuid that will be left at 10:00 am.

1236 mL

1250 mL

1336 mL

1350 mL

Answer and Explanation

The Correct Answer is D

To find the volume of ﬂuid that will be left at 10:00 am, you need to calculate the following:

- The time elapsed in minutes from 8:45 am to 10:00 am using the formula: Time elapsed (min) = End time (min) - Start time (min)
- The volume of ﬂuid infused in milliliters (mL) during the time elapsed using the formula: Volume infused (mL) = Flow rate (mL/min) x Time elapsed (min)
- The volume of ﬂuid left in milliliters (mL) at 10:00 am using the formula: Volume left (mL) = Initial volume (mL) - Volume infused (mL)

First, use the formula for time elapsed to find how many minutes have passed from 8:45 am to 10:00 am:

Time elapsed (min) = End time (min) - Start time (min)

Since the end time is 10:00 am and the start time is 8:45 am, plug in these values into the formula:

Time elapsed (min) = 600 min - 525 min

Simplify and solve for the time elapsed:

Time elapsed (min) = 75 min

Next, use the formula for volume infused to find the amount of ﬂuid infused in milliliters during the time elapsed:

Volume infused (mL) = Flow rate (mL/min) x Time elapsed (min)

Since the ﬂow rate is 2 mL/min and the time elapsed is 75 min, plug in these values into the formula:

Volume infused (mL) = 2 mL/min x 75 min

Simplify and solve for the volume infused:

Volume infused (mL) = 150 mL

Then, use the formula for volume left to find the amount of ﬂuid left in milliliters at 10:00 am:

Volume left (mL) = Initial volume (mL) - Volume infused (mL)

Since the initial volume is 1500 mL and the volume infused is 150 mL, plug in these values into the formula:

Volume left (mL) = 1500 mL - 150 mL

Simplify and solve for the volume left:

Volume left (mL) = 1350 mL

Therefore, the volume of ﬂuid that will be left at 10:00 am is **1350 mL**.

Nursing Test Bank

Quiz #1: RN Exams Pharmacology Exams Quiz #2: RN Exams Medical-Surgical Exams Quiz #3: RN Exams Fundamentals Exams Quiz #4: RN Exams Maternal-Newborn Exams Quiz #5: RN Exams Anatomy and Physiology Exams Quiz #6: RN Exams Obstetrics and Pediatrics Exams Quiz #7: RN Exams Fluid and Electrolytes Exams Quiz #8: RN Exams Community Health Exams Quiz #9: RN Exams Promoting Health across the lifespan Exams Quiz #10: RN Exams Multidimensional care Exams

Get 100+ Naxlex Exit Exams for $79 Try Naxlex NCLEX-RN (14 Day Free-Trial)

Naxlex Comprehensive Predictor Exams

Quiz #1: Naxlex RN Comprehensive online practice 2019 B with NGN Quiz #2: Naxlex RN Comprehensive Predictor 2023 Quiz #3: Naxlex RN Comprehensive Predictor 2023 Exit Exam A Quiz #4: Naxlex HESI Exit LPN Exam Quiz #5: Naxlex PN Comprehensive Predictor PN 2020 Quiz #6: Naxlex VATI PN Comprehensive Predictor 2020 Quiz #8: Naxlex PN Comprehensive Predictor 2023 - Exam 1 Quiz #10: Naxlex HESI PN Exit exam Quiz #11: Naxlex HESI PN EXIT Exam 2

Free Nursing Study Resources

Correct Answer is B

Explanation

This number should be multiplied by inches in order to convert a patient's height measurement from inches to centimeters, because one inch is equal to 2.54 centimeters. To convert inches to centimeters, the formula is:

centimeters = inches × 2.54

For example, if a patient's height is 60 inches, then the height in centimeters is:

centimeters = 60 × 2.54
centimeters = 152.4

Therefore, the patient's height is 152.4 centimeters.

A. 5400 units B. 6800 units C. 7200 units D. 8900 units

Correct Answer is A

Explanation

To find the total amount of heparin, you need to calculate the following:

- The concentration of heparin in units per milliliter
- The volume of heparin infused from 9:00 am to 11:00 am and from 11:00 am to 2:00 pm
- The amount of heparin in units from each time period and the total amount

First, divide the amount of heparin by the volume of D5W to get the concentration in units per milliliter:

25,000 units / 250 mL = 100 units/mL

Next, multiply the infusion rate by the duration to get the volume infused in each time period:

From 9:00 am to 11:00 am (2 hours), the infusion rate is 12 mL/hr:

12 mL/hr x 2 hours = 24 mL

From 11:00 am to 2:00 pm (3 hours), the infusion rate is 10 mL/hr:

10 mL/hr x 3 hours = 30 mL

Then, multiply the volume infused by the concentration to get the amount of heparin in units in each time period:

From 9:00 am to 11:00 am, the volume infused is 24 mL:

24 mL x 100 units/mL = 2400 units

From 11:00 am to 2:00 pm, the volume infused is 30 mL:

30 mL x 100 units/mL = 3000 units

Finally, add the amounts of heparin from each time period to get the total amount:

2400 units + 3000 units = 5400 units

Therefore, the patient received **5400 units** of heparin from 9:00 am to 2:00 pm.

View Question and Answer

Whether you are a student looking to ace your exams or a practicing nurse seeking to enhance your expertise , our nursing education contents will empower you with the confidence and competence to make a difference in the lives of patients and become a respected leader in the healthcare field.

Visit Naxlex, invest in your future and unlock endless possibilities with our unparalleled nursing education contents today

A nurse starts an infusion of 1500 mL of normal saline (NS) for a client at 8:45 am at a ﬂow rate of 2 mL/min. The tubing drop factor is 10 drops/mL. Calculate the volume of ﬂuid that will be left at 10:00 am.

Nursing Test Bank

Naxlex Comprehensive Predictor Exams

Which number should be multiplied by inches in order to convert a patient's height measurement from inches to centimeters?

Correct Answer is B

Explanation

A patient with deep vein thrombosis has heparin ordered. Heparin 25,000 units in 250 mL of D5W infuses at a rate of 12 mL/hr from 9:00 am to 11:00 am and 10 mL/hr from 11:00 am to 2:00 pm. What is the total amount of heparin, in units, that the patient received from 9:00 am to 2:00 pm?

Correct Answer is A

Explanation

After assessing a client, a primary healthcare provider prescribes diphenhydramine 25 mg IV STAT for anaphylaxis. The pharmacy supplies a vial with a concentration of 50 mg/mL. How much and when should a nurse administer this medication?

A physician orders a medication 140 mcg/kg/min for a patient weighing 60 kg. The infusion rate is 10 mL/h. How many milligrams should the nurse administer to the patient?

A client is prescribed 25 mg/kg of a medication. The weight of the client is 42 kg. How many milligrams (mg) of medication should be administered to achieve the total prescribed dose?

A doctor has ordered 600 mg of ibuprofen every 6 hours as needed for a patient for postsurgical pain. The tablets are available in 200 mg per tablet. What is the maximum number of tablets the patient may have in 24 hours?

Haldol (haloperidol) 5.0 mg PO tid was ordered for a patient who is agitated. Which action should a nurse take before administering the medication?

A physician ordered magnesium sulfate 2 grams per hour for a maintenance dose. There are 40 grams of magnesium sulfate in 1 liter of lactated Ringers solution. What is the rate per hour to administer the maintenance dose?

A nurse is administering an intravenous (IV) infusion of 2 g cefotaxime dissolved in 100 mL of isotonic glucose solution to a client. The drop factor of the IV tubing is 15 drops/mL. If the infusion time is 1 hr, what is the gt/min?

A primary healthcare provider prescribes 1.5 L of normal saline (NS) to be given over 24 hours for continuous intravenous (IV) infusion to a client who has diarrhea. What should be the rate of infusion that is required to be set in the infusion pump?

A nurse starts an infusion of 1500 mL of normal saline (NS) for a client at 8:45 am at a ﬂow rate of 2 mL/min. The tubing drop factor is 10 drops/mL.
Calculate the volume of ﬂuid that will be left at 10:00 am.