Question
500 mL D5W are infusing at a rate of 20 gtt/min (20 macrogtt/min). Drop factor: 10 gtt/mL Determine the infusion time: __________ 4 hours, 7
500 mL D5W are infusing at a rate of 20 gtt/min (20 macrogtt/min). Drop factor: 10 gtt/mL Determine the infusion time: __________
- 4 hours, 7 minutes
- 4 hours, 10 minutes
- 4 hours, 15 minutes
- 4 hours, 20 minutes
Order: Infuse 1,750 mL in 9 hr. Drop factor: 20 gtt/mL. Determine the rate in drops per minute. _______ gtt/min
An IV is started at 11:00 PM to complete in 3 hr 40 min. Determine the completion time for the IV in military time. _____
An IV of 500 mL was to infuse in 3 hr at a rate of 28 gtt/min (28 macrogtt/min). Drop factor: 10 gtt/mL. After 1 1/2 hr, you notice that 175 mL have infused. What is the recalculated drops per minute? _____ gtt/min
15 mEq of potassium chloride is to be placed in 1,000 mL of IV fluid to be administered at a rate of 3 mEq per hour. Determine the number of mL of solution needed to deliver 3 mEq per hour: _____ mL
Infuse 75 mL/hr. Drop factor: 60 gtt/mL. Determine the rate in drops per minute. _______gtt/min
Ampicillin 500 mg in 100 mL NS in 30 minutes by infusion pump. Determine the IV rate. _____ mL/h
Infuse 75 mL/hr of lactated Ringer solution. Drop factor: 20 gtt/mL. Determine the IV rate. ____ gtt/min
An IV of 1,500 mL of normal saline was to infuse in 12 hours at a rate of 42 gtt/min (42 macrogtt/min). Drop factor: 20 gtt/mL. After 6 hr 1,000 mL remain. What is the new drop per minute rate? _____ gtt/min
375 mL of lactated Ringer solution was to infuse in 3 hours at 21 gtt/min (21 macrogtt/min). Drop factor: 10 gtt/mL. After 1 hour 175 mL have infused. What is the new drop per minute rate? _____ gtt/min
750 mL D5W to infusing at 125 mL/hr. Determine the infusion time: _________ hours
1,000 mL NS infusing at 75 mL/hr. The IV was started at 7:00 AM. When will the infusion be complete? (State time in military time) ______
Determine gtt/min for the following solutions. 1,000 mL D5W in 9 hr (15 gtt/mL) ______ gtt/min
Determine gtt/min for the following solutions. 750 mL D5 NS in 5 hr (20 gtt/mL) _______ gtt/min
Determine gtt/min for the following solutions. 1,500 mL D5 NS to infuse at 200 mL/hr (10gtt/mL) _______ gtt/min
Determine the IV flow rate for the following solutions by infusion pump. 1,800 mL NS in 24 hr ________ mL/h
Determine the IV flow rate for the following solutions by infusion pump. 250 mL D5W in 3 hr ___________ mL/h
Determine the IV flow rate for the following solutions by infusion pump. 250 mL 0.9% of NS with 100 units of Regular Humulin insulin to infuse at 15 units per hour. What rate in mL/hr will infuse 15 units/hr? (Infusion pump capable of delivering in tenths of a milliliter) _____ mL/h
Determine the IV flow rate for the following solutions by infusion pump. D5W is infusing at 55 gtt/min (55 microgtt/min). Drop factor: 60 gtt/mL. How much fluid volume will the client receive in 10 hours? ___mL
Order: Dilantin (phenytoin) 200 mg IV push stat. Available: Dilantin (phenytoin) 250 mg per 5 mL. The medication insert states, IV infusion not to exceed 50 mg/min. How many mL per 15 sec would you push the medication?
Order: Lasix (furosemide) 60 mg IV push stat Available: Lasix (furosemide) 40 mg per 4 mL. According to medication insert, IV injection not to exceed 40 mg/min. How many mL per 15 sec would you push the medication?
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