That depends on the type and grade of the sand
Yes because the sand adds more mass to the mass of the water, therefore the density and volume also change
Density is 30 g/cm3
Particle Density is how deep in volume something is for example: the density of water and sand.
Put the sand in a dish and heat it above the melting point of lead. The lead will flow to the bottom and separate from the sand. Due to the high density of the lead, the sand will float on the molten lead. When the lead and sand cool, you can separate the two.
ghanatwa.
Density in Hindi is translated as "घनत्व" (Ghanatva). It refers to the mass of an object per unit volume and is a measure of how closely packed together the particles in a substance are.
That depends on the type and grade of the sand
Rängs sand's population density is 1,451 people per square kilometer.
Maximum value of dry density of river sand is 1.7 gm/cc
Depends on the size of the can and the density of the sand.
Determine the density of the sand. Determine the mass of the sand, and it's volume. Divide the mass by the volume and that gives you density. Then divide the sand's density by the density of water. That will give you the specific gravity of the sand. Because you divide densities, the units cancel out, and specific gravity does not have any units. For example, you determine the density of the sand to be 10g/cm3, and the density of pure water is known to be 1g/cm3. Divide 10g/cm3 by 1g/cm3. The g/cm3 cancel, and you are left with just the number 10. So in this example the specific gravity of sand is 10.
Properties of River SandTextural composition(% by weight)Coarse Sand (4.75 - 2.00 mm)6.6Medium Coarse sand (2.00 - 0.425 mm)73.6Fine sand (0.425 - 0.075 mm)19.8
The order of density is: oxygen, water, sand.
In compacted sand the grains of sand are closer together, meaning there are more grains in a certain volume. This gives a higher value for density.
lead
the density of the sand doesn't change because density is a measurement of mass in a given space however weight changes. weight is a measurement of gravitational pull on an object