1. The physician orders 1000 cc D5Wto infuse over a 20 hour. The drop factor of the IV administration set is 15 gtt = 1 ml. Calculate the number of drops
... [Show More] per minute you would administer. Correct Answer 13 gtt/min
2. The physician orders 1000 cc D5W with 1/4% NS to infuse in 8 hours. The drop factor of the administration set is 15 gtt/ml. Calculate the number of drops/min you would administer. Correct Answer 31 gtt/min
3. The physician orders 1000 cc D5 1/2 NS to infuse at 60 gtt/min. The drop factor of the administration set is 20 gtt/ml. Calculate the number of hours the infusion will require. Correct Answer 5.6 hrs
4. The physician orders 1000 cc D5 1/2 NS to infuse at 50 gtt/min. The drop factor of the administration set is 20 gtt/ml. Calculate the number of hours the infusion will require. Correct Answer 6.7 hrs
5. At 1 A.M. 750 ml of D10Wremains to infuse at 32 gtt/min. The drop factor of the administration set is 20 gtt/ml. When will the infusion be absorbed? Correct Answer 8:49 A.M
6. At 2 P.M. 600 cc of D10Wremains to infuse at 50 gtt/min. The drop factor of the administration set is 15 gtt/ml. When will the infusion be absorbed? Correct Answer 5 P.M
7. At 10 P.M. 500 cc of D10Wremains to infuse at 50 gtt/min. The drop factor of the administration set is 20 gtt/ml. When will the infusion be absorbed? Correct Answer 1:20 A.M
8. ORDER: 1000 cc D5 1/2 NS to infuse in 8 hours.
DROP FACTOR: ______ CALCULATE: Correct Answer DROP FACTOR: 12 gtt/ml
CALCULATE: ml/min 2.1 ml/min
9. ORDER: 1000 cc D10W to infuse in 12 hours.
DROP FACTOR: ______ CALCULATE: Correct Answer DROP FACTOR: 20 gtt/ml
CALCULATE: ml/min 1.4 ml/min
10. The physician's order reads: 1000 ml D5W 1/4 NS + 20 mEq KCl q 10h. The administration set drop factor is 15 gtt/ml. How many drops per minute should the patient receive? Correct Answer 25 gtt/min
11. ORDER: 1000 cc D5W 1/4NS + 20 mEq KCl q 8h.
DROP FACTOR: _________
CALCULATE: Correct Answer DROP FACTOR: 12 gtt/ml CALCULATE:gtt/min 25 gtt/min
12. ORDER: 1000 ml D5 1/2 NS with 20 mEq KCl to infuse in 12 hours. DROP FACTOR: _________
CALCULATE: Correct Answer DROP FACTOR: 15 gtt/ml CALCULATE: gtt/min 21 gtt/min
13. Your patient is to receive 1000 ml D5W 1/2 NS with 30 mEq KCl and 1 duplex package of Berocca at 70 cc/hr. The administration set drop factor is 15 drops per ml. Calculate the drops of fluid per minute your patient will receive. Correct Answer 18 gtt/min
14. ORDER: Liter Plasmalyte 56 D5Wat 80 cc/hr. DROP FACTOR: _________
CALCULATE: Correct Answer DROP FACTOR: 12 gtt/ml
CALCULATE: gtt/min 16 gtt/min
15. ORDER: Liter Plasmalyte 56 D5Wat 60 ml/hr. DROP FACTOR: _________
CALCULATE: Correct Answer DROP FACTOR: 15 gtt/ml
CALCULATE: gtt/min 15 gtt/min
16. ORDER: 500 cc .9% NS with 100 units U100 Regular insulin at 7 units/hr DROP FACTOR: _________
CALCULATE: Correct Answer DROP FACTOR: 60 gtt/ml
CALCULATE: gtt/min 35 gtt/min
17. ORDER: 500 cc .9% NS with 100 units U100 Regular Insulin at 10 units/hr DROP FACTOR: ________
CALCULATE: Correct Answer DROP FACTOR: 60 gtt/ml
CALCULATE: gtt/min 50 gtt/min
18. ORDER: 500 cc .9% NS with 50 units U100 Regular Insulin at 6 units/hr DROP FACTOR: ________
CALCULATE: Correct Answer DROP FACTOR: 60 gtt/ml
CALCULATE: gtt/min 60 gtt/min
19. Your patient is to receive 500 cc D5W.45% NS + one ampule NA HCO3 at 22 gtt/min. The label on the administration set specifies 60 drops per ml. Calculate the number of hours the infusion requires. Correct Answer 22.7 hrs
20. The physician has ordered 1000 cc D5W 0.9% NS every 10 hours. The administration set drop factor is 20 gtt = 1 ml. How many drops per minute should the IV infuse? Correct Answer 33 gtt/min [Show Less]