The volume of each drop is 0.00653 ml.
This depends on: - the volume of the drop - the concentration of sodium chloride solution
It is 0.015625 millilitres.
1 tablespoon (US) = about 296 (295.735295625) drops.
There are approximately 20 drops per milliliter, and 29.6 milliliters per ounce.So, 8 ounces of water would contain approximately:8 ounces X 29.6 mL/oz X 20 drops/mL= 4736 drops.There is no "standard" drop volume, so this is an approximation.
That was my Carl Sagan impersonation. I won't do it again. And the answer won't even be close to a million. First, you must convert pints to milliliters. Then you must divide that figure by 0.05, because there is 0.05 mL per drop. That will give you how many drops. 1 US pint = 473.18 milliliters, so 9 US pints = 4,258.6 milliliters. Divide that by 0.05 to get 85,172 drops. I rounded tothe nearest drop.
Fluid ounce is a measure of volume and not weight.Different drop to ounce conversions can be found on the internet:conversion-metric.org/volume/drop-to-ouncegives:1 drop = 0.00219292052575 fl ozTherefore about 460 drops to a fl ozunitconversion.org/volume/drops-to-fluid-ounces-us-conversion.htmlgives:1 drop = 0.001690701 US fl ozTherefore about 590 drops in a US fluid ounce.
No, the drop of Isopropyl Alcohol was in perfect circle whereas the water drops were circular but with lumpy edges.
There aren't a definite amount of drops in a volume. there are a few ways to control the size of a drop but it's not reproducible.
This depends on: - the volume of the drop - the concentration of sodium chloride solution
It depends on the volume of the drop, temperature, pressure, and purity of the water. Are you looking for volume or mass?
The volume of a drop can vary depending on the liquid in question. Surface tension, the speed the drop is excreted and temperature will all subtly affect volume. However the average volume is usually 40 to 50 micro litres per drop.
An US gallon has 3,485411784 L; multiply with your value to obtain the total volume. Aassuming that a drop has 0,000 060 L divide the total volume with the volume of a drop and you will obtain the answer.
The volume of drop will depend on the surface tension of the liquid and is, therefore, not a fixed size.
My lab partner and I had to do an experiment where we needed to identify the volume of a single drop of water in a dropper as part of the lab. We found the avg. volume of a drop of water to be 3.11 mL, so 100/3.11mL gives you 32.15 so I'd say about 32 drops.
The answers will depend on whether you mean a drop of alcohol or a bottle or a vat. Furthermore, it will depend on the type of alcohol: methanol, ethanol, propanol, etc.
Volume to be infused x drop factor Time of infusion x Minutes = Drops/ minute
Use a measured water cylinder, drop in the object, the amount of water displaced represents the volume of the object