Depending upon the amount of substance you are using and what it is, you could use a graduated cylinder, Erlenmeyer flask, or a beaker.
using pycnometry because the density of water is very accurate
water is not measure in unit of mass but in volume for it is a liquid and liquid is measure in volume. confusing
Fill the graduated cylinder with water, and measure the volume. Now put the item in, measure the water's volume again, and take the difference
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.
to be safety
The volume of water may appear bigger due to meniscus formation, which is the slight curvature at the surface of the water in the apparatus. This can lead to an apparent increase in volume compared to the marked volume on the apparatus.
To find out your own volume, you can measure your body using water displacement method. Fill a tub with water, submerge yourself completely, and measure the water that is displaced. This will give you an accurate estimation of your volume.
A huge container of water , that has accurate measureings that tells u the increased amount of water
You can measure the volume of liquid water using a graduated cylinder, measuring cup, or a beaker. Simply pour the water into the container and read the volume marking at the meniscus level for an accurate measurement.
using pycnometry because the density of water is very accurate
A bucket with water in it holds 9 liters, which is a measure of volume. Millimeters, on the other hand, are a measure of length, not volume. Therefore, it wouldn't be accurate to say a bucket holds 9 millimeters of water. Instead, it can hold a certain volume, such as 9 liters.
Put the turtle into water and see how much water it displaces. And of course, remove the turtle from the water when you're done.
The best way to measure the volume of an irregularly shaped solid is to use the water displacement method. This involves submerging the solid in a graduated cylinder or container filled with water and measuring the change in water level. The volume of water displaced is equal to the volume of the solid. This method is effective and provides accurate results for objects that do not have a regular geometric shape.
To measure the volume of an irregular object that floats on water, you can use the water displacement method. Fill a container with a known volume of water, measure the initial water level, then place the object in the water and measure the new water level. The difference in water levels represents the volume of the object.
You fill up water ina beaker, measure the volume of the water as it originally was, then drop in an irregulary-shaped object, measure that volume, and subtrect the two. The difference is the volume of the object.
To measure volume using water displacement, you fill a graduated cylinder with a specific volume of water, note the initial volume, then submerge the object in the water. The increase in water level is the volume of the object. Subtract the initial volume from the final volume to get the volume of the object.
The method of displacement is used to find the volume of irregularly shaped objects by measuring the volume of water displaced when the object is submerged in a container of water. This is because the volume of water displaced by the object is equal to the volume of the object itself, allowing for an accurate volume measurement.