5. A liter (1000 mL) of IV fluid was started at 9 AM and was to run for 8 hours,. The IV set delivers 15 gtt/mL. Fo...
An IV of D5W 1,000 mL was ordered to be infused over 8 hours at a rate of 42 gtt/min. The administration set delivers 15 gtt/mL. After 4 hours, you notice only 400 mL has infused. Recalculate the gtt/min for the remaining IV solution.
help IM 15. The doctor has ordered 1000 mL of DSW to run for 8 hours for a client. It was hung at 10 am with equipment that delivers 20 gtt per mL. When checked at 3:30 pm, it had run in 600 ml. To adjust the rate in order to finish on time, how many git per minute should the IV be set to run? a. 80 gtt/min b. 24.24 gtt/min c. 24 gtt/min d. 53.33 gtt/min e. 53...
An IV is regulated at 30 gtt/min. The administration set delivers 10 gtt/mL. In 5 hours, the patient will have received?
You are to run an IV of 1000 mL of 0.9% NS for 5 hours. The infusion is to begin at 9:00 am. A. What is the flow rate in mL/hr? _____________ B. What is the gtt/min flow rate if the tubing is a microdrip? gtt/min ______________
6) A client is prescribed 500 mL of intravenous fluid in 4 hours. What is the flow rate of this Infusion in ml/hr? 7) The doctor orders 1000 ML. NS from 6 AM to 6 PM. The IV tubing delivers 15 gtt/mL. Calculate the flow rate for this IV in drops/minute. 7) 8) A doctor orders 500 mg of medication in an IV infusion of 500 mL DSW, 0.006 mg/kg/min. The patient weighs 180 lb. Calculate the flow rate in...
An IV of 800 mL was to infuse over 8 hours at 20 gtt/min. After 4 hours and 20 minutes only 300 mLs have infused. Recalculate the gtt/min rate to complete the infusion on time using tubing labeled 15 gtt/mL.
An IV of 500 ml was ordered to be infused in 8 hours at a rate of 16 gtt/min. The drop factor is 10 gtt/mL. After 5 hours, you find 250 ml of fluid left. Recalculate the IV flow . A) 83 D) 21
On Wednesday afternoon, your patient returns from surgery with an IV fluid order for 1000 cc every 8 hours. On Thursday morning at 8am, you assess that 600 mL of a 1L bag has been absorbed. The physician orders the remainder of that bag to infuse over the next 6 hours. You know that the IV tubing used by your unit delivers 10 gtt/mL. What will the correct rate of flow be?
IV Calculation One liter of normal saline charted over 9 hours. The drop factor is number the number of drops per minute. 15 calculate the 2) One and half of normal saline is require to be given over 4 hours using a giving set which delivers 10 drops per min. How many drops per min will need to be given. 3) Calculate the drip rate for 2 liters iv fluids to be given every 5 hours via a giving set...
1. The doctor orders an IV infusion of D5W 1000 mL to infuse over the next 8 hours. The IV set delivers 15 gtt/min. What is the correct rate of flow? (Answer in gtt/min rounded to the nearest whole number). a. 16 gtt/min b. 31 gtt/min c. 48 gtt/min d. 60 gtt/min I know the answer is B but how do we cancel out the 1000 mL? And would this be a microdrip or a macrodrip