Chat with AIExam 13: Intravenous Calculations
Exam 1: Whole Numbers15 Questions
Exam 2: Fractions7 Questions
Exam 3: Decimals and Percents13 Questions
Exam 4: Dimensional Analysis8 Questions
Exam 5: Measures and Equivalents15 Questions
Exam 6: Conversions20 Questions
Exam 7: Safety Considerations in Medication Administration20 Questions
Exam 8: Prescriptions and Medication Orders16 Questions
Exam 9: Reading Medication Labels and Syringes41 Questions
Exam 10: Reconstituting Parenteral Medications From a Powder18 Questions
Exam 11: Calculations Using Weight and Body Surface Area41 Questions
Exam 12: Intravenous Delivery Systems and Equipmen17 Questions
Exam 13: Intravenous Calculations32 Questions
Exam 14: Enteral Tube Feedings7 Questions
Exam 15: Insulin Administration18 Questions
Exam 16: Heparin Administration20 Questions
Exam 17: Critical Care Dosage Calculations21 Questions
Exam 18: Lifespan Considerations in Dosage Calculation16 Questions
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Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse aminophylline 250 mg diluted in 8 mL 0.9% sodium chloride solution over 10 minutes using a syringe pump. _____ mL/hr
(Short Answer)
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(39) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse cefazolin 500 mg diluted in 50 mL 0.9% sodium chloride solution over 30 minutes. _____ mL/hr
(Short Answer)
4.8/5 (42)
(42) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse mycophenolate mofetil 1 g diluted in 150 mL D5W solution over 1 hour. _____ mL/hr
(Short Answer)
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(35) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse LR, 2 L over 18 hours. _____ mL/hr
(Short Answer)
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(31) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV infusing at 24 mL/hr with 400 mL of fluid left in the IV bag. _____ hr ______ min
(Short Answer)
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(43) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse 0.9% sodium chloride solution, 1 L over 12 hours. _____ mL/hr
(Short Answer)
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(37) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV is infusing at 21 gtt/min; 100 mL of fluid remain in the IV bag. The drop factor of the tubing is 10 gtt/mL. The current time is 0620.
(Short Answer)
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(44) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV of 250 mL D5W solution is to be infused over 3 hours. The IV tubing has a drop factor of 15 gtt/mL.
(Short Answer)
4.8/5 (38)
(38) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV fluid is infusing at 12 mL/hr. The drop factor of the tubing is 60 gtt/mL.
(Short Answer)
4.9/5 (36)
(36) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-Infuse bivalirudin 150 mg diluted in 50 mL D5W solution over 3 hours. _____ mL/hr
(Short Answer)
4.8/5 (39)
(39) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV of 50 mL 0.45% sodium chloride solution is to be infused over 1 hour. The IV tubing has a drop factor of 60 gtt/mL.
(Short Answer)
4.8/5 (32)
(32) Calculate the flow rate (gtt/min) for the following IV fluids infusing in mL/hr.
-An IV is infusing at 24 gtt/min; 750 mL of fluid remain in the IV bag. The drop factor of the tubing is 15 gtt/mL. The current time is 2330.
(Short Answer)
5.0/5 (42)
(42) 
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