Objects whose density is lower than the density of the fluid they're in float. Objects whose density is higher than the density of the fluid they're in don't.
The 50g one does have the greater density. This is because density is defined as mass divided by volume.
If an objects density is greater than the waters density it will sink but if it's density is less than the waters density it will float
The objects density has to be less than that of water (which is 1000kg/m3).
Only objects having a density higher than the density of a liquid sink.
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.
Objects whose density is lower than the density of the fluid they're in float. Objects whose density is higher than the density of the fluid they're in don't.
An objects density is determined by its' weight and volume.
An objects density is determined by its' weight and volume.
The 50g one does have the greater density. This is because density is defined as mass divided by volume.
Steel has the greatest density of the three.
Mercury has the greatest density as a liquid in room temperture.
If an objects density is greater than the waters density it will sink but if it's density is less than the waters density it will float
The objects density has to be less than that of water (which is 1000kg/m3).
Only objects with a density greater than density of mercury or oil.
The Earth has the greatest average density, of all the planets.
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.