Density is simply mass divided by volume, so that would mean either that the object has zero mass, or that it has a huge extension.
Density is simply mass divided by volume, so that would mean either that the object has zero mass, or that it has a huge extension.
Density is simply mass divided by volume, so that would mean either that the object has zero mass, or that it has a huge extension.
Density is simply mass divided by volume, so that would mean either that the object has zero mass, or that it has a huge extension.
No. Two objects could have the same density but they also could not. If the two objects were not made from the same substance they would not have the same density. Although if they did then they would have the same density.
If you multiply the amount of objects without changing their total volume, the density of the objects would remain the same. Density is calculated as mass divided by volume, so if the mass increases proportionally to the volume, the density remains unchanged.
If an objects density is less than the density of what it is put in it will float. If the objects density is greater it will sink.
An objects density is determined by its' weight and volume.
An objects density is determined by its' weight and volume.
No, an aquamarine with a density of 2.63 g/cm^3 would sink in water, as the density of water is 1 g/cm^3. Objects with a density greater than that of water will sink, while objects with a density less than that of water will float.
Not necessarily. Density is determined by the mass of an object compared to its volume. Heavier objects may have a higher density if they are more compacted, but lighter objects can also have a high density if they are very compacted or have a smaller volume.
Buoyancy is linked to density, density being how much material is packed into an object of a certain size. Objects with less density will generally be buoyant in more dense objects.
By heating the density is lowered.
When objects are placed in water, they can sink, float, or stay suspended depending on their density and the density of the water. Objects that are denser than water will sink, objects that are less dense will float, and objects with a similar density may stay suspended in the water.
It is not two units are not the same as 1 density the objects density only counts on how much the mass of the object is then you will find out the density (units are counted in the density)
It is not two units are not the same as 1 density the objects density only counts on how much the mass of the object is then you will find out the density (units are counted in the density)