The volume of a stone or any irregular solid non-porous object can be determined by placing the object slowly into a container filled with water up to the very top. The water that runs over the edge of the container must be collected and measured in another container, such as a cylinder type or rectangular/square shape from which a square area can be calculated to determine the displaced volume of water.
volume can be calculated from weight and density using the formula,volume=weight/density.It can be measured by using jars by measuring the volume of fluid displaced by the stone(put stone into a fully filled jar with water.Measure the volme of water overflown gives the volume of stone).
-Use a a measuring cylinder and put 50 litres of water inside. slowly put the stone in and record the new volume. take the new volume and take away 50 and you got the volume of the stone. -Use the displacement method if the stone cannot fit into the measuring cylinder.
density = mass divided by volume density = 20/10 = 2 g/cm3
by using the water displacement method of Archimedes. For example,a stone's volume(an irregularly-shaped figure) can be measured by dropping it in a graduated cylinder with water(for example 20g water)...then the water will be displaced after you immersed the stone into it(it became 35g).the total displaced water(15g) will be the stone's volume.. this is the same with what happened to Archimedes when he was asked by a king to determine whether his crown was made of pure gold. for more info,just read some books..lol!
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volume can be calculated from weight and density using the formula,volume=weight/density.It can be measured by using jars by measuring the volume of fluid displaced by the stone(put stone into a fully filled jar with water.Measure the volme of water overflown gives the volume of stone).
The water displaced by the stone is directly proportional to its volume
To measure a stone using a beaker, first fill the beaker with water to a known volume. Then, carefully add the stone to the water and measure the new volume of water, also known as the displacement volume. The difference in volume between the two measurements will give you the volume of the stone.
The general property illustrated by measuring the volume of a stone through water displacement is the principle of displacement. When the stone is submerged in water, it displaces an equal volume of water, providing an indirect method of measuring the volume of the stone.
The volume of the stone is measured by displacement. Water is put into the measuring cylinder to a noted mark. The stone is placed in the cylinder and the water level will rise. The difference between the two levels is the volume in ml of the stone.
A measuring cyling ( you fill it up with water then you put the stone in and the change is the volume)
you subtract the weight of the water from the weight of the measuring cylinder and you get the volume of the stone
-Use a a measuring cylinder and put 50 litres of water inside. slowly put the stone in and record the new volume. take the new volume and take away 50 and you got the volume of the stone. -Use the displacement method if the stone cannot fit into the measuring cylinder.
A graduated cylinder would be the appropriate lab equipment to find the volume of a small stone through water displacement method. Fill the graduated cylinder with water, measure the initial volume, add the stone and record the new volume to calculate the stone's volume.
The volume of the stone is equal to the difference in water levels before and after the stone was added, so the volume of the stone is 85mL - 50mL = 35mL. To find the density, divide the mass of the stone (75.0g) by its volume (35mL). The density of the stone is 75.0g / 35mL β 2.14 g/mL.
The volume of 804 stone per cubic meter depends on the density of the stone. To calculate this, you would need to know the specific density of the 804 stone. Once you have that information, you can use the formula: Volume = Mass / Density.
Wetting the stone helps in removing air bubbles that may be trapped on the surface of the stone. This ensures that when the stone is submerged in water in the graduated cylinder, the water level accurately reflects the stone's volume. Without wetting the stone, air trapped on its surface may affect the volume displacement measurement.