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 ≈ 2.14 g/mL.
The density of the stone is greater than the density of water, causing it to sink. The weight of the stone is also greater than the buoyant force exerted by the water, so it is pulled downwards.
Mary will need a balance to measure the weight of the stone, a ruler to measure its dimensions, and a calculator to determine the density using the formula Density = Mass / Volume.
Pumice is a type of stone that floats on water due to its high porosity and low density.
You can calculate the density of a stone by measuring its mass and volume, and compare this value to known densities of different types of stones. By matching the calculated density to a specific range, you can identify the type of stone based on its density. Different types of stones have characteristic densities that can help differentiate between them.
The density of 13mm crushed stone can vary depending on the type of stone and the compaction of the material. On average, 13mm crushed stone typically has a density of around 1.5 - 2.0 g/cm3.
Stone Mills's population density is 10.7 people per square kilometer.
2.64
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 ≈ 2.14 g/mL.
The density of the stone is greater than the density of water, causing it to sink. The weight of the stone is also greater than the buoyant force exerted by the water, so it is pulled downwards.
5
The density of 25mm size broken stone metal can vary depending on the specific composition of the stones. However, a common average density for broken stone metal of this size is typically around 1600 kg/m³ to 1800 kg/m³.
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.
The answer depends on the density of the stone.
The density of stone ballast of a standard size is approximately 100 pounds per cubic foot that is 1.6 Metric Tons per cubic.
The density of granite stone dust is typically around 150 pounds per cubic foot or 2,400 kilograms per cubic meter.
1700 m3