Question 25 Calculate the infusion time for an IV of 1500 mL running at 25 gtt/min....

Question

Question

science nursing

Answer 1

Answer #1

According to the question,

Total volume to be infused= 1500ml

Drop rate = 25 gtt/min

Drop factor= 15 gtt/ml

To calculate the infusion the formula is

Infusion time =

total volume to be infused / [ (drop rate ÷ drop factor ) × 60]

So substituting the values

Infusion time = 1500/[ (25÷15)×60]

= 15 hrs

(Plz note since the answers in the option is in hrs ×60 is added in the formula)

So the answer is option A that is 15 hrs

Answer 2

Similar Homework Help Questions

lew 13. Calculate the infusion time for an IV of 1000 ml D5W infusing at 25...

lew 13. Calculate the infusion time for an IV of 1000 ml D5W infusing at 25 drops per min with a drop factor of 10 drops per ml. a. 6 hr, 40 min b. 6 hr, 10 min c. 5 hr, 57 min d. 4 hr, 17 min
PROBLEM 2 Determine the infusion time for the following IV. State time in both traditional and...

PROBLEM 2 Determine the infusion time for the following IV. State time in both traditional and military time. 150 mL D5W 1/2 NS infusing at 20 macrogtt/min. Drop factor: 15 gtt/mL. Calculate the infusion time:
Calculate the infusion time for an IV of 1,000 mL running at 125 mL/h A. 32...

Calculate the infusion time for an IV of 1,000 mL running at 125 mL/h A. 32 h B. 250,000 minutes C. 8 h D. 16 h

A volume of 2000 mL is to infuse at 175 mL/hr using an IV set with...

A volume of 2000 mL is to infuse at 175 mL/hr using an IV set with drop factor of 15 gtt/mL. The infusion was started at 21:35. Calculate : a) gtt/min; b ) infusion time; c) completion time
Order: D5W 500 mL IV at 30 gtt/min Drop factor: 20 gtt/mL Time:_________h and ____min

Order: D5W 500 mL IV at 30 gtt/min Drop factor: 20 gtt/mL Time:_________h and ____min
250 mL D5W at 40 mL/hr infusing at 20 macrogtt/min. Drop factor : 15 gtt/ml. Calculate...

250 mL D5W at 40 mL/hr infusing at 20 macrogtt/min. Drop factor : 15 gtt/ml. Calculate the infusion time.

15% An IV solution of 70 mL at a drip rate of 10 gtt/min using a...

15% An IV solution of 70 mL at a drip rate of 10 gtt/min using a tubing factor of 15 gtt/mL has been ordered to be initiated at 1345. Calculate the infusion time. (Round your answer to the nearest tenth of an hour.) Enter your answer: hr Submit Answer
18. Dobutamine gtt of 800 mg in 500 mL of IV fluid. It is to infuse...

18. Dobutamine gtt of 800 mg in 500 mL of IV fluid. It is to infuse at 25 mcg/kg/min. The client weighs5 the rate to be set on the IV infusion pump. Calculate 19. Esmolol 2 g in 250 mL D,W ordered to run at 49 mcgkg/min for a client weighing 185 lbs. Determine the dosage in mcg/min Calculate the dosage in mg/hr 20. An In0corgtt is ordered for a client. It is 250 mg in 250 mL of 0.9%...
Order: NS 1,500 mL IV at 125 mL/h for 12 hours. Since the drop factor is 20 gtt/mL, the initial flow rate was correct...

Order: NS 1,500 mL IV at 125 mL/h for 12 hours. Since the drop factor is 20 gtt/mL, the initial flow rate was correctly set at 42 gtt/min. After six hours, 900 mL remain to be infused. The infusion is behind schedule. Compute the new flow rate in gtt/min. so that the infusion will finish on time. If flow rates may not be adjusted by more than 25% of the original rate, to what rate would you reset the drip...

An IV is infusing at 25 gtt/min with a microdrop infusion set. How many mililiters will...

An IV is infusing at 25 gtt/min with a microdrop infusion set. How many mililiters will have infused over 4.3 hours? Round answer to a whole number. 7. mL Answer