To change density there are three ways. You can change the shape, mass or volume of the object
When mass increases and volume stays constant, the density increases. When volume increases and mass stays constant the density decreases. When they both change, then the density will depend on the rate of change of mass and the rate of change of volume.
Density does not change regardless of where the object is. It is a constant.
It is unchanged. The density is the mass divided by the volume, and as both of these numbers are halved the density does not change.
Density Dependent
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
Density is a physical property.
To change density there are three ways. You can change the shape, mass or volume of the object
It won't change. Density is volume divided by mass, so if volume doesn't change, density doesn't change unless you change the mass of the object.
No, your density does not change when you are in water. Your density is determined by your mass and volume, and it remains constant regardless of the medium you are in.
The density of the metal in the crushed can remains the same as the density of the metal before it was crushed. Density is an intrinsic property of a material that does not change with physical alterations like crushing. So, the density of the metal in the can will not change due to the crushing process.
The density does not change.
You can change the density of a substance by changing its volume. Density is equivalent to mass over volume. So changing the volume affects density.
Density Dependent
Density Dependent
Gases can change their volume and that causes the density to change. Liquids and solids are practically incompressible. Their volume change under pressure is such a small amount that their density changes very little if at all.
In a simple way, since density = mass /volume, the density of an object can be changed by changing either mass or volume of an object .