Chat with AIExam 5: Intravenous Preparations With Clinical Applications
Exam 1: Methods of Calculation for Individualized Drug Dosing22 Questions
Exam 2: Oral and Enteral Preparations With Clinical Applications102 Questions
Exam 3: Injectable Preparations With Clinical Applications60 Questions
Exam 4: Antidiabetic Medications33 Questions
Exam 5: Intravenous Preparations With Clinical Applications108 Questions
Exam 6: Anticoagulants6 Questions
Exam 7: Pediatrics38 Questions
Exam 8: Critical Care75 Questions
Exam 9: Pediatric Critical Care9 Questions
Exam 10: Labor and Delivery12 Questions
Exam 11: Home Care and Community20 Questions
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Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Diamox 375 mg IV , Available: 500 mg/5 mL
(Essay)
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(41) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Sublimaze/fentanyl 70 mcg IV , Available: 100 mcg/2 mL
(Essay)
4.9/5 (41)
(41) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Hydralazine HCl 15 mg, slow IV push , Available: 20 mg/mL , Amount:
(Essay)
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(34) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Midazolam 2 mg, IV push , Available: 5 mg/mL , Amount:
(Essay)
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(35) Ertapenem (Invanz) 1g IV over 30 minutes , Available: 1 g powdered vial, reconstitute with 10 mL sterile water, then add to 50 mL D5W and infuse total amount , Use 60 gtt/mL set.What is the flow rate in gtt/min?
(Essay)
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(39) Give minocycline 200 mg IV, now.Available: minocycline 100 mg, add 2 mL diluent per vial , Set and solution: 500 mL NS and a set with a drop factor of 10 gtt/mL , Instructions: infuse over 1 hour. 
a. What is the correct drug dose?
b. What is the flow rate in gtt/min?
a. What is the correct drug dose?
b. What is the flow rate in gtt/min? (Essay)
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(45) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Amrinone 0.75 mg/kg , Patient weight: 75 kg , Available: 5 mg/mL , How many milliliters are needed for each IV dose?
(Essay)
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(37) Calcium chloride 500 mg IV; give 1 mL/min over 5 minutes.Available: 100 mg/mL , What is the correct dose?
(Essay)
4.9/5 (38)
(38) Rate: D5LR 1000 mL at 150 mL/hr , How many hours are required to administer this fluid at the given rate?
(Essay)
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(34) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Phenobarbital 10 mg/kg, IV infusion not to exceed 50 mg/min , Patient weight: 65 kg , Available: 30 mg/mL
a. How many milliliters are needed for each IV dose?
b. The IV drug dose should be administered over how many minutes?
(Essay)
4.8/5 (40)
(40) Give ampicillin 500 mg IV q6h.Available: ampicillin 1 g, add 4.5 mL of diluent to yield 5 mL , Set and solution: Buretrol with a drop factor of 60 gtt/mL and NS 500 mL , Instructions: dilute drug in 50 mL and infuse over 15 minutes.
a. What is the correct drug dose?
b. What is the flow rate in gtt/min?
(Essay)
4.8/5 (33)
(33) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Phenytoin 900 mg, IV push at 50 mg/min , Available: 50 mg/mL , How many milliliters are needed for each IV dose?
(Essay)
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(30) D5W at 20 mL/hr
a. 10 gtt/mL?
b. 15 gtt/mL?
c. 20 gtt/mL?
d. 60 gtt/mL?
(Essay)
4.8/5 (35)
(35) Give gentamycin 120 mg q12h.Available: gentamycin 80 mg/2 mL , Set and solution: 200 mL bag NS and a 20 gtt/mL drop factor set , Instructions: infuse over 60 minutes.
a. What is the correct drug dose?
b. What is the flow rate in gtt/min?
(Essay)
4.9/5 (38)
(38) Give amikacin 800 mg IV, now.Available: amikacin 500 mg/2 mL , Set and solution: D5W 150 mL bag and a drop factor of 15 gtt/mL set , Instructions: infuse over 60 minutes.
a. What is the correct drug dose?
b. What is the flow rate in gtt/min?
(Essay)
4.8/5 (36)
(36) Give levofloxacin 500 mg IV q day x1 over 90 min.Available: levofloxacin (Levaquin) 500 mg in 100 mL premixed bag , Set: 20 gtt set for volumetric pump
a. What is the flow rate in gtt/min?
b. What is the flow rate in mL/hr?
(Essay)
4.9/5 (31)
(31) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Digoxin 0.125 mg, IV push , Available: 0.5 mg/2 mL , Amount:
(Essay)
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(35) Rate: D51/2NS 1000 mL at 100 mL/hr , How many hours are required to administer this fluid at the given rate?
(Essay)
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(30) D5W at 80 mL/hr
a. 10 gtt/mL?
b. 15 gtt/mL?
c. 20 gtt/mL?
d. 60 gtt/mL?
(Essay)
4.9/5 (36)
(36) Calculate the number of milliliters needed for each intravenous dose for direct IV push. Use either the basic formula, ratio and proportion, fractional equation, or dimensional analysis methods.
-Toradol 15 mg IV over 1 minute , Available: Toradol 30 mg in 2 mL , Amount:
(Essay)
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