Medication order reads: 500 ml NS to infuse in 5 hrs. Drop factor is 20 gtts/mL....

Order: NS 1000 ml IV infuse in 12 hours. The drop factor is 20 gtt/ml a)...

Order: NS 1000 ml IV infuse in 12 hours. The drop factor is 20 gtt/ml a) Calculate the initial drip rate in gtt/min b) when the nurse checks this infusion 7 hours later, 500 ml are (left in the bag). Recalculate the drip rate for the remaining 500 ml. c) If the facility protocols indicate that flow rate adjustments must not exceed 20% of the original rate, may the adjustment be made? The answer for a) 28 gtt/min b) 33...

Order: Ampicillin 1,000 mg added to 50 mL NS to infuse over 45 minutes. Drop factor:...

Order: Ampicillin 1,000 mg added to 50 mL NS to infuse over 45 minutes. Drop factor: 10 gtt/mL. Available: Ampicillin 1 g in 10 mL Calculate the rate in gtt/min in which the IV should infuse. (Consider the medication added to the volume of fluid.)

Medication order: Erythromycin 200 mg in 250 mL D5W to infuse over 1 hour. The drop...

Medication order: Erythromycin 200 mg in 250 mL D5W to infuse over 1 hour. The drop factor is 10 gtt/mL. Calculate the flow rate in drops per minute (gtt/min). Round to the nearest whole number

Order: Vancomycin HCl 500 mg in 100 mL D5W IVPB q6h, infuse in 60 min. The...

Order: Vancomycin HCl 500 mg in 100 mL D5W IVPB q6h, infuse in 60 min. The instructions state to reconstitute the 500-mg vial with 10 mL of sterile water. (a) How many milliliters must be added to the 100 mL of D5W? (b) Calculate the flow rate in drops per minute; the drop factor 20 gtt/mL..

14. A bag of 0.9% NS (normal Saline) is infusing at the rate of 20 gtt/min....

14. A bag of 0.9% NS (normal Saline) is infusing at the rate of 20 gtt/min. The infusion set is calibrated for a drop factor of 15 gtt/mL. how many mL of solution will infuse during an 8-hour shift?

Order: D5W 750 ml IV to infuse at 125 ml/hr. Drop factor: 20gtt/min. Give ______gtt/min

Order: D5W 750 ml IV to infuse at 125 ml/hr. Drop factor: 20gtt/min. Give ______gtt/min

The doctor orders 5 gram of a drug in 500 mL of D-5-W IV to be...

The doctor orders 5 gram of a drug in 500 mL of D-5-W IV to be infused at 6 mcg/kg/min. The patient weighs 130 lbs. The drop factor is 60 gtt/mL. a. Calculate the flow rate in mL/h. b. Calculate the flow rate in gtt/min.

1. Ordered: D5W 500 ml to infuse in 12 hours. The drop factor of your tubing...

1. Ordered: D5W 500 ml to infuse in 12 hours. The drop factor of your tubing is 15gtts / mL. How many drops per minute would you infuse? 2. A 7-year-old child who weighs 28 kilograms is to receive 56 mg loading dose of SoluMedrol intravenously. SoluMedrol is available in 125 mg / 2 mL vial. How many milliliters should the nurse administer. 3. A neonate who weighs 2800 grams is to receive a 0.1 mg / kg / dose...

A 500 mL IV is set to infuse at 60 mL/hr using 20 gtt/mL tubing. The...

A 500 mL IV is set to infuse at 60 mL/hr using 20 gtt/mL tubing. The IV was started at 1000. a. Calculate the completion time for this IV. State answer in both standard time and military time. b. Calculate the original gtt/min rate. c. After 4 hours, you notice that 150 mL of IV solution is left in the bag. Recalculate the rate in gtt/min for the remaining solution to finish on time. d. Determine the percentage of change...

The IV ordered is 1000 mL D-10-W IV q12h. The drop factor is 10 gtts/mL. a....

The IV ordered is 1000 mL D-10-W IV q12h. The drop factor is 10 gtts/mL. a. Calculate the flow rate in mL/h. b. Calculate the flow rate in gtts/min.