To calculate the drops per minute for a 40 cc/hour IV, you'll first convert the hourly rate to a per-minute rate. Since there are 60 minutes in an hour, divide 40 cc by 60 minutes, which equals approximately 0.67 cc/min. If using a standard IV set with a drop factor of 15 drops per cc, multiply 0.67 cc/min by 15 drops/cc, resulting in about 10 drops per minute. Adjust according to the specific drop factor of the IV set being used.
60ml x 15 drops/ml = 900 total drops 900 total drops divided by 60 minutes (1 hour) = 15 drops per minute
50*10 = 500 drops.
$15 per hour = 25¢ per minute.
12 per minute.
1 minute is 0.01667 hours.
Oh, dude, let me break it down for you. So, 150 ml over 1 hour means 150 drops per hour. With a drip factor of 10 drops per milliliter, that's like 1500 drops in total. Divide that by 60 minutes, and you get 25 drops per minute. Easy peasy, lemon squeezy!
60ml x 15 drops/ml = 900 total drops 900 total drops divided by 60 minutes (1 hour) = 15 drops per minute
For an IV rate of 100 ml per hour, you would set the IV pump to deliver 1.67 ml per minute (100 ml divided by 60 minutes). If you are using a standard IV administration set with a drip factor of 10 drops per ml, this would equal 16.7 drops per minute (1.67 ml multiplied by 10 drops). You would typically round this to the nearest whole number, so in this case, it would be 17 drops per minute.
A minute contains 1/60th of an hour.
50*10 = 500 drops.
1400 mL x 15 drops per mL = 21000 total drops "per day" assumes 24 hours. 24 hours x 60 minutes per hour = 1440 minutes in one day 21000 total drops divided by 1440 minutes = 14.58 drops per minute (round up to 15 drops per minute)
3 hour 30 mins.
$15 per hour = 25¢ per minute.
45 cents per minute.
12 per minute.
48 minutes.
1 minute is 0.01667 hours.