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Drug Dosage Calculations: Parenteral Medications Practice Exam Quiz

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Drug Dosage Calculations: Parenteral Medications Practice Exam Quiz

Precision in drug dosage calculations is vital in nursing, pharmacy, and other healthcare professions—especially when administering parenteral medications. The Drug Dosage Calculations Parenteral Medications Practice Exam Quiz is an essential study and review tool designed to help students and healthcare workers gain the confidence and accuracy required when working with intravenous (IV), intramuscular (IM), and subcutaneous (SC) medications.

This practice quiz offers a comprehensive review of all the critical calculations related to parenteral drug administration. Whether you’re preparing for a nursing exam, medical math assessment, or clinical competency check, this quiz will enhance your ability to calculate correct dosages quickly and safely—an essential skill for preventing medication errors and ensuring optimal patient outcomes.

Topics covered in this quiz include:

  • Converting between units (mg, mcg, mL, etc.)
  • Calculating dosages from stock strength and solution volume
  • IV drip rate calculations (manual and pump-based)
  • Determining flow rates in gtt/min and mL/hr
  • Calculating doses based on body weight (mg/kg)
  • Understanding reconstitution of powdered medications
  • Safe injection volumes for different routes (IM, IV, SC)
  • Time-sensitive dose calculations for intermittent medications

Each question in the Drug Dosage Calculations Parenteral Medications Practice Exam Quiz is modeled after real-world clinical situations. Learners are encouraged to think critically and apply pharmacological principles to calculate accurate dosages for adult and pediatric patients.

In a high-stakes clinical environment, accuracy is non-negotiable. This quiz is designed to simulate actual medication calculation scenarios encountered in hospitals, clinics, and emergency settings. It helps bridge the gap between textbook learning and real patient care, strengthening both conceptual understanding and applied math skills.

What sets this quiz apart is the clarity and depth of each answer explanation. After completing a question, you’ll receive a detailed breakdown of the calculation method, allowing you to understand not just what the correct answer is—but why it’s correct. This builds confidence and reduces the likelihood of making critical errors in future assessments or clinical practice.

This practice tool is especially helpful for:

  • Nursing students preparing for dosage calculation exams
  • Healthcare professionals undergoing medication math validation
  • Paramedics and pharmacists needing a quick refresher
  • NCLEX and PN exam candidates focusing on safe medication administration

Whether you struggle with math or just need extra practice, the Drug Dosage Calculations Parenteral Medications Practice Exam Quiz is a trusted resource that promotes skill development, confidence, and clinical readiness.

From mastering IV flow rate calculations to confidently reconstituting and delivering medication, this quiz helps ensure you’re prepared to handle dosage responsibilities with precision and professionalism.

FAQ

Who should take this practice quiz?

This quiz is ideal for nursing students, pharmacy technicians, paramedics, and other healthcare professionals who need to master parenteral drug calculations.

What types of questions are included?

The quiz covers IV rate calculations, weight-based dosages, reconstitution, conversion between units, and route-specific dosing guidelines.

Are explanations provided with the answers?

Yes. Every question includes a step-by-step explanation to ensure you understand the method behind the correct calculation.

Is this quiz useful for NCLEX preparation?

Absolutely. Drug dosage calculation questions, especially involving parenteral routes, are a major part of the NCLEX and similar licensing exams.

Can this be used for clinical competency preparation?

Yes. This quiz mirrors the types of scenarios and calculations used during clinical math competency checks and in-service training.

Is this quiz beginner-friendly?

Yes. It’s designed to support learners at all levels, with clear explanations and real-world application examples to support skill development.

 

Questions

What is the correct conversion of 0.5 milliliters (mL) to cubic centimeters (cc)?

A) 0.05 cc
B) 0.5 cc
C) 5 cc
D) 50 cc

 

A patient needs 250 mg of a drug, and the available concentration is 500 mg/mL. How many milliliters should be administered?

A) 0.25 mL
B) 0.5 mL
C) 1 mL
D) 2 mL

 

You need to administer 1,000 units of heparin. The vial contains 5,000 units/2 mL. How many milliliters will be needed?

A) 0.4 mL
B) 0.5 mL
C) 1.0 mL
D) 2.0 mL

 

A physician orders 1.5 grams of a medication. The available vial contains 750 mg per 1 mL. How many milliliters will you need to administer?

A) 1.5 mL
B) 2.0 mL
C) 3.0 mL
D) 4.0 mL

 

A patient requires a 50 mg dose of a medication, and the concentration is 10 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 5 mL
C) 10 mL
D) 50 mL

 

If a patient is prescribed 0.25 mg/kg of a drug and they weigh 70 kg, how many milligrams should they receive?

A) 12.5 mg
B) 17.5 mg
C) 25 mg
D) 35 mg

 

How many milliliters of a solution containing 1,000 units/mL are required to administer 5,000 units of a medication?

A) 2 mL
B) 5 mL
C) 10 mL
D) 50 mL

 

You need to give a patient 1.5 mL of a solution that has a concentration of 25 mg/mL. How many milligrams will the patient receive?

A) 37.5 mg
B) 50 mg
C) 75 mg
D) 100 mg

 

A medication is supplied as 10 mg/mL. How many milliliters should be administered to provide a 75 mg dose?

A) 5 mL
B) 7.5 mL
C) 10 mL
D) 12.5 mL

 

The order reads 200 mg of a drug, and the available concentration is 100 mg/mL. How many milliliters should be administered?

A) 0.5 mL
B) 1 mL
C) 2 mL
D) 4 mL

 

A patient is to receive 4 units of insulin. The vial contains 100 units/mL. How many milliliters should be administered?

A) 0.04 mL
B) 0.04 cc
C) 0.4 mL
D) 4 mL

 

The prescribed dose is 12.5 mL of a medication. The concentration is 50 mg/mL. How many milligrams will the patient receive?

A) 250 mg
B) 500 mg
C) 750 mg
D) 1,250 mg

 

A patient needs 1,000 mg of a medication. The available solution contains 500 mg per 2 mL. How many milliliters should be given?

A) 2 mL
B) 4 mL
C) 5 mL
D) 8 mL

 

How many milliliters of a 5% solution are required to provide a 15 gram dose?

A) 150 mL
B) 200 mL
C) 300 mL
D) 500 mL

 

A physician orders 30 mg of a drug, and the available vial contains 10 mg/mL. How many milliliters will be required?

A) 2 mL
B) 3 mL
C) 5 mL
D) 10 mL

 

The prescribed dose is 4.5 grams. You have a vial with a concentration of 1.5 grams per 1 mL. How many milliliters should be given?

A) 2 mL
B) 3 mL
C) 4 mL
D) 6 mL

 

A medication order reads: administer 2,000 units of heparin. The vial contains 1,000 units/mL. How many milliliters are required?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

If a medication is available in 0.5 mg/mL concentration and the prescribed dose is 3 mg, how many milliliters should be administered?

A) 1 mL
B) 3 mL
C) 5 mL
D) 6 mL

 

The prescribed dose is 0.6 mL, and the available concentration is 100 units/mL. How many units will be administered?

A) 60 units
B) 100 units
C) 200 units
D) 600 units

 

A drug is ordered at a rate of 5 mL per hour. How many milliliters should be administered in 6 hours?

A) 15 mL
B) 25 mL
C) 30 mL
D) 60 mL

 

A solution contains 2 mg/mL, and the patient needs a 10 mg dose. How many milliliters will be required?

A) 3 mL
B) 4 mL
C) 5 mL
D) 6 mL

 

How many milliliters of a solution containing 200 mg/mL are required to give a 1,000 mg dose?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 100 mg of a medication. The available solution contains 50 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A drug is ordered at a rate of 15 mL per hour. How many milliliters should be administered over 4 hours?

A) 45 mL
B) 60 mL
C) 75 mL
D) 90 mL

 

A solution contains 25 mg/mL. How many milliliters are needed to administer a 100 mg dose?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The available solution is 40 mg/mL. The doctor orders 120 mg. How many milliliters should be given?

A) 1.5 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The prescribed dose is 4 grams of a medication. The available concentration is 1.5 grams per 2 mL. How many milliliters are needed?

A) 2.5 mL
B) 4.5 mL
C) 6 mL
D) 8 mL

 

A vial contains 50,000 units in 10 mL. The doctor orders 25,000 units. How many milliliters should be administered?

A) 2.5 mL
B) 5 mL
C) 10 mL
D) 12.5 mL

 

A solution contains 4 mg/mL, and the prescribed dose is 16 mg. How many milliliters should be given?

A) 2 mL
B) 4 mL
C) 6 mL
D) 8 mL

 

A patient is to receive 2.5 grams of a medication. The concentration is 1.25 grams/2 mL. How many milliliters should be administered?

A) 2.0 mL
B) 3.0 mL
C) 4.0 mL
D) 5.0 mL

 

The doctor prescribes 500 mg of a medication. The available concentration is 250 mg/mL. How many milliliters will be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a concentration of 200 mg/mL. How many milliliters are required for a 1,000 mg dose?

A) 4 mL
B) 5 mL
C) 6 mL
D) 7 mL

 

The prescribed dose is 40 mg. The available solution contains 10 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A patient needs 0.8 mg/kg of a medication, and the patient weighs 80 kg. How many milligrams should be administered?

A) 64 mg
B) 80 mg
C) 120 mg
D) 160 mg

 

A vial contains 1,000 units of insulin per 5 mL. How many milliliters are required to administer a 500 unit dose?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The order reads: administer 500 mg of a drug. The available concentration is 250 mg/2 mL. How many milliliters should be given?

A) 1 mL
B) 2 mL
C) 4 mL
D) 5 mL

 

The prescribed dose is 2.5 mg/kg. If the patient weighs 70 kg, how many milligrams should be administered?

A) 150 mg
B) 175 mg
C) 200 mg
D) 225 mg

 

The doctor orders 100 mL of normal saline to be infused over 4 hours. What is the infusion rate in milliliters per hour?

A) 20 mL/hour
B) 25 mL/hour
C) 30 mL/hour
D) 35 mL/hour

 

A medication is available in a 1 mg/mL concentration. The doctor prescribes 3 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a concentration of 500 units/mL. The doctor orders 1,000 units. How many milliliters should be given?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is ordered at a dosage of 0.5 mg/kg. If the patient weighs 50 kg, how many milligrams should be administered?

A) 20 mg
B) 25 mg
C) 30 mg
D) 35 mg

 

The doctor orders 5,000 units of heparin. The available concentration is 10,000 units/2 mL. How many milliliters should be given?

A) 0.5 mL
B) 1 mL
C) 2 mL
D) 4 mL

 

The doctor prescribes 1,200 mg of a medication. The vial contains 400 mg/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

You need to administer 5,000 units of insulin. The vial contains 100 units/mL. How many milliliters should be administered?

A) 2 mL
B) 4 mL
C) 5 mL
D) 10 mL

 

A solution contains 2.5 mg/mL. How many milliliters are needed for a dose of 25 mg?

A) 7.5 mL
B) 8.0 mL
C) 10.0 mL
D) 12.5 mL

 

A vial contains 500 mg per 10 mL. The doctor orders 250 mg. How many milliliters should be given?

A) 2 mL
B) 5 mL
C) 10 mL
D) 12 mL

 

A patient is ordered 3 mg of a medication, and the available concentration is 1 mg/mL. How many milliliters will be needed?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor prescribes 1.2 grams of a medication. The available concentration is 400 mg/mL. How many milliliters will be administered?

A) 2.5 mL
B) 3.0 mL
C) 4.0 mL
D) 5.0 mL

 

The prescribed dose is 30 mL of a 10% solution. How many grams of the drug will the patient receive?

A) 3 grams
B) 5 grams
C) 10 grams
D) 30 grams

 

The doctor orders 1,500 units of heparin. The vial contains 5,000 units/2 mL. How many milliliters should be administered?

A) 0.5 mL
B) 0.6 mL
C) 1.0 mL
D) 1.5 mL

 

The doctor orders 150 mg of a medication. The available concentration is 50 mg/mL. How many milliliters will be required?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A patient is prescribed 8 mg of a medication, and the concentration is 4 mg/mL. How many milliliters will be required?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 0.5 mg/kg of a drug. If the patient weighs 60 kg, how many milligrams should be administered?

A) 20 mg
B) 30 mg
C) 35 mg
D) 40 mg

 

A vial contains 500 mg per 5 mL. The doctor orders 100 mg. How many milliliters will be needed?

A) 1 mL
B) 2 mL
C) 3 mL
D) 5 mL

 

The available solution contains 50 mg/mL. The doctor orders 150 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor prescribes 0.3 mg/kg for a patient weighing 85 kg. How many milligrams will be required?

A) 20 mg
B) 25 mg
C) 30 mg
D) 35 mg

 

A solution contains 4 mg/mL. How many milliliters are needed for a dose of 12 mg?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A medication is available in a 1:1,000 concentration. How many milliliters are needed to provide a 10 mg dose?

A) 0.5 mL
B) 1.0 mL
C) 2.0 mL
D) 5.0 mL

 

The order is for 3,000 units of a medication. The available vial contains 1,000 units/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 150 mg of a drug, and the available solution is 50 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 5 mL

 

The doctor orders 0.4 mg/kg of a medication for a patient weighing 70 kg. How many milligrams should be administered?

A) 28 mg
B) 35 mg
C) 40 mg
D) 45 mg

 

A medication is available in a concentration of 2 mg/mL. The doctor orders 6 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor prescribes 250 mg of a medication. The available concentration is 125 mg/5 mL. How many milliliters should be given?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

A medication is available in a concentration of 150 mg/mL. How many milliliters will be required for a dose of 450 mg?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 0.5 mg/kg of a medication, and the patient weighs 80 kg. How many milligrams should be administered?

A) 35 mg
B) 40 mg
C) 45 mg
D) 50 mg

 

A solution contains 10 mg/mL. How many milliliters are needed to administer a 50 mg dose?

A) 3 mL
B) 4 mL
C) 5 mL
D) 6 mL

 

A vial contains 1,000 units/mL. The doctor orders 200 units. How many milliliters should be given?

A) 0.1 mL
B) 0.2 mL
C) 0.3 mL
D) 0.4 mL

 

The prescribed dose is 15 mg. The available concentration is 5 mg/mL. How many milliliters will be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 0.3 mg/kg of a medication, and the patient weighs 90 kg. How many milligrams should be administered?

A) 25 mg
B) 27 mg
C) 28 mg
D) 30 mg

 

The doctor orders 2,000 units of heparin. The vial contains 10,000 units/5 mL. How many milliliters should be administered?

A) 0.5 mL
B) 1 mL
C) 2 mL
D) 4 mL

 

A medication is available in a concentration of 300 mg/5 mL. The doctor orders 600 mg. How many milliliters will be administered?

A) 5 mL
B) 10 mL
C) 12 mL
D) 15 mL

 

A solution contains 1,000 units/mL. The doctor orders 3,000 units. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 5 mg/kg for a patient weighing 60 kg. How many milligrams should be administered?

A) 250 mg
B) 300 mg
C) 350 mg
D) 400 mg

 

The doctor prescribes 100 mg of a medication, and the available concentration is 25 mg/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor prescribes 2.5 mg/kg for a patient weighing 75 kg. How many milligrams should be administered?

A) 180 mg
B) 200 mg
C) 210 mg
D) 220 mg

 

A vial contains 50 mg per 5 mL. The doctor orders 100 mg. How many milliliters should be administered?

A) 5 mL
B) 10 mL
C) 15 mL
D) 20 mL

 

The doctor prescribes 20 mg of a drug, and the available concentration is 10 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 3,000 units of insulin. The vial contains 500 units/mL. How many milliliters will be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A medication is available in a concentration of 5 mg/mL. How many milliliters are needed for a dose of 20 mg?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 500 mg of a medication. The available concentration is 200 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a concentration of 75 mg/mL. The doctor prescribes 150 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 1,000 units of heparin. The available concentration is 5,000 units/mL. How many milliliters should be given?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is ordered at a dosage of 0.5 mg/kg. If the patient weighs 80 kg, how many milligrams should be administered?

A) 35 mg
B) 40 mg
C) 45 mg
D) 50 mg

 

The doctor orders 150 mg of a medication, and the available concentration is 50 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 5 mL

 

A solution contains 500 mg/mL. How many milliliters are needed for a dose of 1,000 mg?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a 5 mg/mL concentration. How many milliliters will be required to administer a 25 mg dose?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 40 mg of a medication. The available concentration is 20 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 100 mg of a medication. The available concentration is 25 mg/5 mL. How many milliliters will be required?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

The doctor orders 0.25 mg/kg of a drug for a patient who weighs 50 kg. How many milligrams should be administered?

A) 10 mg
B) 12 mg
C) 15 mg
D) 20 mg

 

The doctor orders a 20 mg dose of a medication, and the available concentration is 8 mg/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 150 mg of a medication. The available concentration is 300 mg/10 mL. How many milliliters should be administered?

A) 2.5 mL
B) 3 mL
C) 5 mL
D) 7.5 mL

 

A medication is ordered at 0.2 mg/kg, and the patient weighs 60 kg. How many milligrams should be administered?

A) 12 mg
B) 15 mg
C) 20 mg
D) 25 mg

 

The doctor prescribes 80 mg of a drug. The available concentration is 40 mg/mL. How many milliliters should be given?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders a 2,000-unit dose of heparin. The vial contains 500 units/mL. How many milliliters should be given?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 0.5 mg/kg of a drug for a patient weighing 55 kg. How many milligrams should be administered?

A) 20 mg
B) 25 mg
C) 30 mg
D) 35 mg

 

A medication is available in a concentration of 5 mg/mL. The doctor orders 30 mg. How many milliliters should be administered?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

A medication is available in a concentration of 10 mg/mL. The doctor orders 80 mg. How many milliliters should be administered?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

The doctor orders 2 mg/kg for a patient weighing 80 kg. How many milligrams should be administered?

A) 120 mg
B) 140 mg
C) 160 mg
D) 180 mg

 

A medication is available in a concentration of 100 mg/2 mL. The doctor orders 250 mg. How many milliliters should be administered?

A) 4 mL
B) 5 mL
C) 6 mL
D) 7 mL

 

The doctor orders 4,000 units of a drug. The available concentration is 2,000 units/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 100 mg of a drug. The available concentration is 25 mg/mL. How many milliliters should be administered?

A) 3 mL
B) 4 mL
C) 5 mL
D) 6 mL

 

A medication is available in a concentration of 50 mg/mL. The doctor orders 300 mg. How many milliliters should be administered?

A) 4 mL
B) 5 mL
C) 6 mL
D) 7 mL

 

The doctor orders a 100 mg dose of a drug. The available concentration is 200 mg/mL. How many milliliters should be administered?

A) 0.25 mL
B) 0.5 mL
C) 1 mL
D) 1.5 mL

 

A medication is available in a concentration of 150 mg/mL. The doctor orders 600 mg. How many milliliters should be administered?

A) 3 mL
B) 4 mL
C) 5 mL
D) 6 mL

 

A medication is available in a concentration of 1 mg/mL. The doctor orders 0.5 mg. How many milliliters should be administered?

A) 0.2 mL
B) 0.5 mL
C) 1 mL
D) 1.5 mL

 

The doctor orders 10,000 units of insulin. The available concentration is 500 units/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is ordered at 4 mg/kg, and the patient weighs 70 kg. How many milligrams should be administered?

A) 220 mg
B) 250 mg
C) 280 mg
D) 300 mg

 

A medication is available in a concentration of 100 mg/mL. The doctor orders 1,500 mg. How many milliliters should be administered?

A) 10 mL
B) 15 mL
C) 20 mL
D) 25 mL

 

The doctor orders a 200 mg dose of a medication. The available concentration is 50 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 0.4 mg/kg for a patient weighing 100 kg. How many milligrams should be administered?

A) 30 mg
B) 35 mg
C) 40 mg
D) 45 mg

 

A medication is available in a concentration of 50 mg/mL. The doctor orders 200 mg. How many milliliters should be administered?

A) 3 mL
B) 4 mL
C) 5 mL
D) 6 mL

 

The doctor orders 2 mg/kg for a patient weighing 40 kg. How many milligrams should be administered?

A) 70 mg
B) 80 mg
C) 90 mg
D) 100 mg

 

A medication is available in a concentration of 150 mg/5 mL. The doctor orders 450 mg. How many milliliters should be administered?

A) 10 mL
B) 12 mL
C) 15 mL
D) 18 mL

 

The doctor orders 200 mg of a drug. The available concentration is 100 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders a 250 mg dose of a medication. The available concentration is 25 mg/mL. How many milliliters should be administered?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

The doctor orders 0.1 mg/kg of a drug for a patient weighing 50 kg. How many milligrams should be administered?

A) 3 mg
B) 5 mg
C) 7 mg
D) 10 mg

 

The doctor orders 1,500 units of insulin. The available concentration is 500 units/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is ordered at 2 mg/kg, and the patient weighs 65 kg. How many milligrams should be administered?

A) 120 mg
B) 130 mg
C) 140 mg
D) 150 mg

 

A medication is available in a concentration of 20 mg/mL. The doctor orders 40 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 0.6 mg/kg for a patient weighing 50 kg. How many milligrams should be administered?

A) 25 mg
B) 30 mg
C) 35 mg
D) 40 mg

 

A doctor prescribes a medication that is available in a concentration of 250 mg/5 mL. The prescribed dose is 500 mg. How many milliliters should be administered?

A) 5 mL
B) 10 mL
C) 15 mL
D) 20 mL

 

A medication is available in a concentration of 50 mg/mL. The doctor orders 100 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A patient weighs 75 kg, and the doctor orders a medication at 0.4 mg/kg. How many milligrams should be administered?

A) 25 mg
B) 30 mg
C) 35 mg
D) 40 mg

 

The doctor orders 500 mg of a drug. The available concentration is 250 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A patient weighs 60 kg, and the doctor orders 3 mg/kg. How many milligrams should be administered?

A) 120 mg
B) 150 mg
C) 180 mg
D) 200 mg

 

A medication is available in a concentration of 500 mg/mL. The doctor orders 1000 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a concentration of 10 mg/mL. The doctor orders 60 mg. How many milliliters should be administered?

A) 4 mL
B) 5 mL
C) 6 mL
D) 7 mL

 

A doctor orders 400 mg of a drug. The available concentration is 100 mg/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A medication is available in a concentration of 2 mg/mL. The doctor orders 6 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A doctor orders a 200 mg dose of a medication. The available concentration is 100 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

The doctor orders 15 mg/kg of a drug for a patient weighing 70 kg. How many milligrams should be administered?

A) 100 mg
B) 105 mg
C) 110 mg
D) 115 mg

 

A medication is available in a concentration of 50 mg/mL. The doctor orders 150 mg. How many milliliters should be administered?

A) 1 mL
B) 2 mL
C) 3 mL
D) 4 mL

 

A medication is available in a concentration of 25 mg/mL. The doctor orders 100 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 10 mg/kg for a patient weighing 45 kg. How many milligrams should be administered?

A) 400 mg
B) 450 mg
C) 500 mg
D) 550 mg

 

The doctor orders 75 mg of a drug. The available concentration is 25 mg/mL. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A medication is available in a concentration of 100 mg/2 mL. The doctor orders 200 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 0.3 mg/kg for a patient weighing 80 kg. How many milligrams should be administered?

A) 20 mg
B) 25 mg
C) 30 mg
D) 35 mg

 

A patient weighs 100 kg, and the doctor orders a 0.5 mg/kg dose. How many milligrams should be administered?

A) 40 mg
B) 50 mg
C) 60 mg
D) 70 mg

 

A medication is available in a concentration of 250 mg/10 mL. The doctor orders 125 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 1.5 mg/kg for a patient weighing 55 kg. How many milligrams should be administered?

A) 75 mg
B) 80 mg
C) 85 mg
D) 90 mg

 

A medication is available in a concentration of 500 mg/mL. The doctor orders 300 mg. How many milliliters should be administered?

A) 0.5 mL
B) 1 mL
C) 1.5 mL
D) 2 mL

 

A medication is available in a concentration of 200 mg/mL. The doctor orders 800 mg. How many milliliters should be administered?

A) 2 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

The doctor orders 0.2 mg/kg for a patient weighing 50 kg. How many milligrams should be administered?

A) 5 mg
B) 6 mg
C) 7 mg
D) 8 mg

 

The doctor orders 100 mg of a drug. The available concentration is 25 mg/mL. How many milliliters should be administered?

A) 1 mL
B) 3 mL
C) 4 mL
D) 5 mL

 

A patient weighs 120 kg, and the doctor orders a 0.25 mg/kg dose. How many milligrams should be administered?

A) 25 mg
B) 30 mg
C) 35 mg
D) 40 mg

 

A medication is available in a concentration of 50 mg/mL. The doctor orders 1,500 mg. How many milliliters should be administered?

A) 20 mL
B) 25 mL
C) 30 mL
D) 35 mL

 

The doctor orders 200 mg of a drug. The available concentration is 20 mg/mL. How many milliliters should be administered?

A) 5 mL
B) 10 mL
C) 15 mL
D) 20 mL

 

A patient weighs 50 kg, and the doctor orders 0.5 mg/kg. How many milligrams should be administered?

A) 15 mg
B) 20 mg
C) 25 mg
D) 30 mg

 

The doctor orders 500 mg of a drug. The available concentration is 50 mg/mL. How many milliliters should be administered?

A) 5 mL
B) 6 mL
C) 7 mL
D) 8 mL

 

The doctor orders 10 mg/kg for a patient weighing 80 kg. How many milligrams should be administered?

A) 600 mg
B) 700 mg
C) 800 mg
D) 900 mg
For nurses who want more than quick practice, the complete nursing maths question bank with answers includes detailed explanations, real exam-style problems, and full coverage of medication calculations and core nursing math skills needed for exams and daily clinical work.

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