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As Particle size increases the angle is repose decrease. Reason being, smaller particles have dominant cohesive and adhesive forces as compared to particle weight whereas in bigger particles gravity plays a dominant role so less repose angle.
Density reason is that the density of a uniform material is constant Density is independent of the size and shape of the sample.
The slower the rate of cooling the larger the size of the crystals that can develop.
No. Usually it's the other way around, the density controls in what way the mineral breaks and erodes.
The magnetic properties of a material depend on its atomic structure.
Size, Shape , and Weight Your Welcome :)
the composition ,size ,weight and shape .
No!!!! The density of the material determines whether something will float or sink.
No, size doesn't affect an object's shape because it's the same unit and material.
No that is to do with density differences not size differences,
Density is dependent on two things - the volume of the object under consideration, and it's mass. For a given material, in order for the volume (the size) to change, so must the mass by a proportional amount. Therefore, for a specific material, changing the size of the sample does not affect the density in any way.
As long as they have the same density and mass, size will not affect it
It depends on the density of the material.
Two cubes are exactly the same size. The cube that is made of the material with the largest density will have the largest mass.
Two cubes are exactly the same size. The cube that is made of the material with the largest density will have the largest mass.
The definition of density is mass divided by volume. Density lets you compare how heavy a material is, compared to another material of the same size. That is, if one material is more dense than another, a sample of the same size will be heavier, and more massive. Density is usually defined by mass and not by weight, but a material that is more massive is also heavier.
-- Get a piece of the material. It doesn't matter what size it is. -- Measure the mass of the sample. -- Measure the volume of the sample. -- Divide the mass by the volume. The result is the density of the material.