To measure a drop of water you should get a measuring cylender. Say you put 100 drops to make the results more accurate. Lets say 100 drops of water in a measuring cylender would show 200cm^3 . So to find the volume of 1 drop of water instead of 100 you would divide 200 by 100 which would give you 2cm^3 for 1 drop of water
1/15th of one millilitre.
No, one drop of water is not equal to a fluid ounce. A fluid ounce is a unit of measurement used to measure volume, while a drop is a very small unit of volume that can vary depending on the liquid and dropper size. It typically takes many drops to add up to a fluid ounce.
Does not compute; one is weight the other is volume.
Overflow can measure the volume of water displaced by an object when it is submerged. By measuring the overflow, one can determine the volume of the object, as it is equal to the volume of water it displaces.
1 drop of water is ~ 0.05 ml (milliliters). That's its volume. mm (millimeters) measures length, and isn't normally used to measure a drop of water, since its shape (width & height) varies, depending on how the drop is falling, or suspended, or in a weightless environment, etc...
Meters cubed, centimeters cubed, liters, and milliliters
How big is a drop? "A drop" is not a precise measurement. It depends on a number of factors. If you measure how big the drops of water are you're talking about, (in millilitre) then you could figure out the number of molecules based on the fact that Avogadro's number of water molecules have a volume of about 18 milliliters. Avogadro's number is 6.022 * 1023 (particles) per mole One drop: average volume about 0.05 ml = 0.05 g Molar mass of water 18.01 g/mol Meaning: about 1.7*1021 molecules in a drop of water: don't start counting them!!
One way to measure volume of a material is the following: Put the material in a waterproof container, e.g. a tub. Submerge the material in water, register the water level, take the material out and measure what volume of water you need to add to the tub in order to make the water rise to the level it was with the material in. The volume of water you've added equals the volume of the material.
Yes, one method to measure the volume of an irregular solid is through water displacement. By immersing the object in water and measuring the volume of water displaced, you can calculate the volume of the irregular solid.
One way to measure the volume of an oddly shaped object is by using the water displacement method. Fill a container with a known volume of water, then submerge the object in the water and measure the change in water level - this change in volume is equal to the volume of the object.
Drop it into a measurement device such as a graduated cylinder with enough liquid to cover the object. Assuming the object sinks, the increase in mls is the volume of the object (1 ml = 1 cm^3)
One common technique is the water displacement method. You submerge the irregular object in a known volume of water in a container, measure the volume of water displaced, and that volume is equal to the volume of the object.