1.Drops per min=volume/ time*drip factor
=90/60*12
=18 drops per min
2.Drops per min=volume/ time*drip factor
Time = 5 hrs= 5*60min=300 min
=1000ml/300 min*20
=67 drops per min
3Drops per min=volume/ time*drip factor
= 1000/600*60
=100 ml per hour
PRACTICE a) Order: IV of NS to infuse at 90 ml/hr (12 gtts/ml) How many drops...
IV calculations 1. IV of 500ml of 0.9 normal saline is to infuse over 6 hours using 20 gtt/ ml tubing. a. How many mls/hr b. How many drops per minute (gtt/min) would you regulate the IV at? 2. IV of 150 ml of 0.9 normal saline is to infuse over 90 minutes using 15 gtt/ml tubing. c. How many mls/hr d. How many drops per minute (gtt/min) would you regulate the IV at? 3. IV of 500 ml of...
1. Order: D5W 500 ml IV infuse over 12 hours. Find the pump setting in ml/hr. 4 1.6 h 2. Order: NS 1,000 mL IV infuse over 24h. Find the drip rate in drops per minute if the drop factor is 15gtt/mL. 3. A continuous IV is infusing at 120 ml/h. How many milliliters will infuse in two hours and thirty minutes? SOOL 4. An IV starts at 1800 h and runs at 21 gtt/min with a drop factor of...
Practice Dosage Calculations 1. Order: IV of D5W to infuse a W to infuse at 140 cc/hr (20 gtts/cc) How many drops per minute? 2- Order: 1 g po Available: 2 18 po Available: 250 mg/tablet How many tablet(s) will you give? Order: 750 mcg po Available: 0.25 mg/tablet How many tablet(s) will you 4- Order: 1.5 g po Available: 750 mg/tablet How many tablet(s) will you give? 5- Order: IV of D51/2NS at 100 cc/hr (20 gtts/cc) How many...
5. IV of D5 1/2NS at 100 cc/hr. IV tubing drip factor is 20 gtts/ml. What is the gtts/min 6. A patient is started on furosemide (Lasix) to promote diuresis. Lasix 2,000 mg in 200 ml is prescribed at 1 mg per min. You should set the IV pump at how many ml per hour? 7. 500 ml DSW with 500 mg Aminophylline to infuse at 150 ml/hr (20 gtts/ml). How many drops per minute?
1. Order: DSW to infuse at 100mL/hr. Drop factor: 10 gtt/mL. What rate should the IV be regulated (gtt/min)? 2. Order: Administer 50 mL NS in 1 hour. Drop factor: micro drop (60 gtt/mL). What rate should the IV be regulated (gtt/min)? en 3. Administer DSLR at 75 mL/hr. The drop factor is 10 gtt/mL .SI Vi sdi 4. Administer LR at 125 mL/hr. The drop factor is 15 gtt/mL A W 5. Administer 1,000 mL DSW in 10 hours....
Infuse 125 mL/hr of D5LR. The administration is 20 gtts/mL. Calculate the gtts/min. ___________ 9. Infuse MgSO4 four grams IV over a 20 minute period. The medication is dissolved in 100 mL of NS. The administration set delivers 10 gtts/mL. Calculate gtts/min ___________. Calculate mL/hr__________ 10. Administer 100 mL of Ampicillin in 30 minutes. The administration set delivers 10 gtts/mL. Calculate gtts/min.__________
Order: NS 1,000 mL IV stat infuse in 8 hr. Find the flow rate (pump setting) in ml/h. 1,000 mL of NS must infuse via IV over 8 hours. The drop factor is 20 gtt/mL. Find the flow rate in gtt/min.
Determining hours an IV will run: 1.. Order: 1000ml NS IV. Infuse at 50ml/hr. How long will it take for this infusion to go in? 2. Order 500 ml D5W IV. Infuse at 40ml/hr. How many hours will this fluid infuse? 3. Order 750 ml LR IV. Infuse at 75ml/hr. How long will it take this infusion to go in? 4.. Order 2000ml NS IV. Infuse at 200ml/hr. How long will it take this infusion to go in?
Calculate IV rate for the pump: 1. The order: 900 ml LR IV 7am – 7pm. How many ml/hr do we set the pump to? 2.The order: 1000 ml NS to infuse over 3 hours. How many ml/hr would we set the pump to? 3. The order: Infuse 750 ml D5W from 6:00am – 11:00am. How many ml/hr would this be?
Part F: Intravenous and Infusion Calculations continued An IV flow rate consists of the number otf cc/hour. Calculate the flow rate that a 1000 c IV solution infuses over an 8-hour period. 6. 7. Considering an IV flow rate in cc/hour, calculate the flow rate of the same 1000 ac IV solution infusing over a period of 6 hours. 8. The drop factor (gtts/cc) is the number of drops it takes to equal 1 cc for specific tubing in intravenous...