Ans) Formula:
ml/min = Volume in ml × drop factor ÷ time
= 50 × 15 ÷ 20
= 37.5 ml/min
2.083 ml/min x 60= 124.99 = 125 gtt/min Note: whenever you have a drop factor of...
9. 60 mL of DSW is to be administered in 30 minutes. Drop factor: 60gtt/mL. How many gtt/min? How many mL/hr? 10. Administer 20mL of NS in 30 minutes. Drop factor: 15 g/mL. How many gtt/min?
250 mL D5W at 40 mL/hr infusing at 20 macrogtt/min. Drop factor : 15 gtt/ml. Calculate the infusion time.
5. Order: Erythromycin 200mg in 250 ml DSW over 1 hour. Drop Factor is 10 gtt/ml. Available is Erythromycin 500mg/5 ml. How many ml would the Nurse administer? 200 6. How many gtt/min would the Nurse regulate the flow? (Use the info from #5) 7. Order: Ampicillin 1 G in 50 ml of D5W to run over 45 min q 6hrs. Tubing is 10 gtt/ml. Available Is Ampicillin 2G/10ml. What is the mi to be added to the Bag? 8....
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....
14 & 15. can you show step by step please?
14. The client is to receive a 2 mg/min infusion of lidocaine hydrochloride. The drop factor is 60 gtt/mL. The order calls for the addition of 500 mg of lidocaine hydrochloride to 250 mL of D5W. a. An IV pump would be programmed for b. If the infusion is administered by gravity, the IV flow rate would be set for per minute. mL/hr. drops Round final answers to the nearest...
4500 = 125 mL ha 1.75 mL/hr 2. 100 mL/hr (3) 125 mL/hr 4.250 mL/hr Question 3 A client's intravenous fluids are infusing at the rate of 30 gtts/min. How many mL/h is the client receiving? 1. 20 mL/h 2. 40 mL/h 3. 60 mL/h 4. 80 mL/h Question 4 A clientt is prescribed 1 liter of fluid in 8 hours. How many drops per minute will be delivered if the drop factor is 20 drops per mL? 1.21 gtt/min...
For 11 and 12, calculate the flow rate in gtt/min for the following infusions. Round rates to the nearest whole number. Show your work using Dimensional Analysis 11. Ceftriaxone 1 g in 100 mL over 60 minutes using a 20 gt/mL macro drip set. DA: 11. 12. Cefazolin 500 mg in 50 ml. to be given over 30 minutes using a mini (micro) drip set. DA: 12. 13. Drug X, 600 mg per 200 mL.. Existing flow rate: 25 mL/hr....
Remember: You cannot give a decimal of a drop. You need to round it to the nearest whole number. All IV pumps use whole numbers to deliver ml/hr so your answer should be a whole number unless otherwise specified. PLEASE HELP WITH 16 NURSING QUESTIONS. THANK YOU. GOD BLESS YOU!!! 1. A client’s intravenous fluids are infusing at the rate of 30 gtts/min. How many mL/h is the client receiving? 2. A client is prescribed 500 mL of intravenous fluid...
An IV is infusing at 35 gtt/min. If the drop factor is 10 gtt/mL, what would this rate of flow equal in mL/hr?
please ignored the written answers, im not sure it is right.
can you answer them all, i would like to double check with my own
work
7. Ordered: 500 mg aminophylline in 250 ml normal saline IVPB for emphysema to infuse at 30 ml per hour. The IV started at 1330 hours. When will the infusion be complete? Ehr 30 v 2200 puys can explor 10. Ordered: 250 ml NS to be infused at 150 ml per hour. The drop...