The physician of patient AJ (50 kg, M) admitted in your hospital ordered that the patient receives 0.25 mL of drug A per kg of body weight. This must be mixed with 250 mL of D5W. The IV admixture must be administered over a six-hour period only using a drip set capable of delivering 15 drops per mL. Your pharmacy has stocks of 2.0% w/v of drug A solution (density of drug A: 1.2 g/mL). Answer all questions below. 1. How many mL of drug A must the patient receive to obtain the needed dose? A. 12.5 mL B. 25.0 mL C. 50.0 mL D. 75 mL 2. From the pharmacy's stocks of drug A solution, how many mL must be added to 250 mL D5W to prepare the IV admixture? A. 250 mL B. 500 mL C. 750 mL D. 1000 mL 3. What is the total volume of the admixture that will be administered to the patient? A. 262.50 mL B. 500 mL C. 750 mL D. 1000 mL 4. Given the capability of the hospital's IV set, how many drops of the admixture should be administered to the patient? A. 3,936.5 drops B. 7,500 drops C. 11,250 drops D. 15,000 drops 5. How many drops per minute should be administered to the patient? Round up answers to the nearest whole number. A. 11 drops per min B. 21 drops per min C. 32 drops per min D. 42 drops per min
The physician of patient AJ (50 kg, M) admitted in your hospital ordered that the patient receives 0.25 mL of drug A per kg of body weight. This must be mixed with 250 mL of D5W. The IV admixture must be administered over a six-hour period only using a drip set capable of delivering 15 drops per mL. Your pharmacy has stocks of 2.0% w/v of drug A solution (density of drug A: 1.2 g/mL). Answer all questions below. 1. How many mL of drug A must the patient receive to obtain the needed dose? A. 12.5 mL B. 25.0 mL C. 50.0 mL D. 75 mL 2. From the pharmacy's stocks of drug A solution, how many mL must be added to 250 mL D5W to prepare the IV admixture? A. 250 mL B. 500 mL C. 750 mL D. 1000 mL 3. What is the total volume of the admixture that will be administered to the patient? A. 262.50 mL B. 500 mL C. 750 mL D. 1000 mL 4. Given the capability of the hospital's IV set, how many drops of the admixture should be administered to the patient? A. 3,936.5 drops B. 7,500 drops C. 11,250 drops D. 15,000 drops 5. How many drops per minute should be administered to the patient? Round up answers to the nearest whole number. A. 11 drops per min B. 21 drops per min C. 32 drops per min D. 42 drops per min
Chemistry & Chemical Reactivity
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ISBN:9781337399074
Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Chapter1: Basic Concepts Of Chemistry
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Transcribed Image Text:The physician of patient AJ (50 kg, M) admitted in your hospital ordered that the patient receives 0.25
mL of drug A per kg of body weight. This must be mixed with 250 mL of D5W. The IV admixture
must be administered over a six-hour period only using a drip set capable of delivering 15 drops per
mL. Your pharmacy has stocks of 2.0% w/v of drug A solution (density of drug A: 1.2 g/mL). Answer
all questions below.
1. How many mL of drug A must the patient receive to obtain the needed dose?
A. 12.5 mL
B. 25.0 mL
C. 50.0 mL
D. 75 mL
2. From the pharmacy's stocks of drug A solution, how many mL must be added to 250 mL D5W to
prepare the IV admixture?
A. 250 mL
B. 500 mL
C. 750 mL
D. 1000 mL
3. What is the total volume of the admixture that will be administered to the patient?
A. 262.50 mL
B. 500 mL
C. 750 mL
D. 1000 mL
4. Given the capability of the hospital's IV set, how many drops of the admixture should be
administered to the patient?
A. 3,936.5 drops
B. 7,500 drops C. 11,250 drops D. 15,000 drops
5. How many drops per minute should be administered to the patient? Round up answers to the nearest
whole number.
A. 11 drops per min
B. 21 drops per min
C. 32 drops per min D. 42 drops per
min
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