Remember... Rate of Flow = M X Drop Factor Time (min) Time to Administer = Volume X Drop Factor X 4 Rate of Flow . 1 Drug Infusron Rate (of Flow) Dosage X Strength Equation to dilute a concentrate: comm i1 1 ' n (strength) (volume) = (strength) (volume) 41. What is Rate of Flow? Ordered: 1.20 liters delivered in 10 hours. Drop Factor: 15 gtts./m1 42. What is Rate of Flow? Ordered: 150 ml delivered in 1% hours. Drop Factor: 30 gtts./ml 43. A 60% concentrate is used to produce 100 ml ofa 3 g = 25 ml diluted solution? a] What volume of 60% concentrate used to prepare diluted solution? b] What is volume of diluent used to prepare diluted solution from concentrate? 44. Find Drug Infusion Rate for IV... Available: 1g in 1A liter 5% D/W Ordered: run at 4mg/min. 45. Find Drug Infusion Rate for IV... Available: 0.2g in 800 ml 5% D/W Ordered: run at 0.5mg/min. 46. What is Time in hours to administer IV solution? Volume: 2 liters Drop Factor: 30 gtts./ml Rate of Flow: 40 gtts./min. hours 47. What is Time to administer IV solution? Volume: 250 ml Drop Factor: 60 gtts./ml Rate of Flow: 20 gtts./min. a] in minutes b) in hours + minutes 48. Piggyback: medication in 100 ml to run 30 minutes q.6h. Ordered: 1000 ml IV uids in 12 hours Drop Factor for all tubing = 15 gtts./ml a) What is Rate of Flow for each piggyback? b) What is the Rate of Flow for the [V between piggybacks? [round to nearest whole number) Pediatric Rate of Flow 49. ORDER: 25 mg has been ordered diluted to 25 ml using 5% D/W, followed by 15 ml ush, to be administered over 2 hours. LABEL: 75 mg/9 ml 3. What is the volume of 5% WW used to dilute 25 mg of medication to 25 ml? b. Find Rate of Flow for the pediatric IV above 50. ORDER: 10 mg has been ordered diluted to 15 ml using 5% D/W, followed by a 15 ml ush. to be administered over 1/5 hour. LABEL: 5 mg = 1 ml 3. What is the volume of 5% WW used to dilute 10 mg of medication to 15 ml? b. Find Rate of Flow for the pediatric lV above