36 g of water (in any state) is 2 gram moles of water. At STP a mole of any gas has a volume of 22.4 litres, so two moles is 44.8 litres. This value would have to be corrected to the pressure and temperature of the actual conditions.
Measure out a specific volume of water, such as 100mL. Determine the mass of that volume of water. Density = mass/volume, so divide the mass by the volume, and you will have the density.
The density is the ratio between mass and volume.
Place the piece of metal in 50mL of water and subtract the 50mL from the new volume of water. The difference will be the volume of the metal in mL and cm3. Then find the density by dividing the mass by the volume of the metal. The water must completely cover the metal in order for the displacement method of determining the volume to work.
The weight of the bottle with the water minus the mass of bottle gives the weight of the water present.Mass/Volume=Density,therefore weight of the water/density gives the volume of water present in the bottle which is nothing but the volume of the bottle itself.
You divide the mass by density
using water displacement method
Use volume displacement method.
When you are trying to find the volume of an irregularly shaped object.
water displacement
Water displacement can accurately find the volume of substances as it represents the same amount of space or volume. An object placed into the water will displace the same amount of water volume as its own volume.
Water A measuring tape and a calculator
First, if it happened to be a floating soap, it would have to be forced down to displace its full volume of water. Otherwise, it would only displace its own weight of water. Whatever tool was used to force it down also would have volume, and its volume would have to be subtracted from the volume of water displaced. Second, since soaps are made so that they break down in the presence of water, part of its volume would be lost to the water and would have to be accounted for: both the portion that remained in the water container (no problem), and more problematic, the portion that flowed out.
you carefully poor the water into a graduated cylinder and meassure at the lowest point of the meniscus.
The problem you would have is that the sugar cube would not be at its regular size so to solve that you would have to put the water in first and then put the sugar cube in it. After that is done then record the volume the sugar starrts to melt into the water.
Measuring the volume of a baseball is a tough chemistry equation. To do so, you would have to measure the circumference to find the radius. Next, you would find the volume of a sphere. You would also have to know the density of water to complete the equation.
density = mass / volume. so you need to weigh to find the mass. To find the volume submerse in water and record the displacement of water to find the volume.
density = mass / volume. so you need to weigh to find the mass. To find the volume submerse in water and record the displacement of water to find the volume.