In general, yes. For a simple situation of a constant gravitational force, the equation is P=rho*g*h. where rho = density, g = 9.8ms^-2, h corresponds to depth.
Water density changes with temperature and pressure.
The density of a liquid hardly changes with pressure - liquids can be considered uncompressible for most practical purposes.
When the density increase the pressure also increase.
Air density is the mass of air per unit volume, which changes by temperature, humidity, and elevation. Changes in air density will change its pressure. At mean sea level and 20°C, air has a density of approximately 1.2 kg/m3.
Density never changes >.<
Matter changing state is usually a result of the material changing temperature and/or a change in the surrounded pressure on the material. The change of state is usually associated with a change in its density.
Pressure can change the volume of all three (to varying degrees) and density = mass (which doesn't change) divided by volume.
The object through which the force is exerted must also change.
Pressure Temperature Changes in the molecular structure(chemical change)
the density does not change, only the pressure
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.
the change in volume affects the density of solids, liquids , and gases by when the volume of a liquid , solid . or gas expands the density changes.
When the double force applied on the object then the pressure exerted on the object will also be doubled.
Air density is the mass of air per unit volume, which changes by temperature, humidity, and elevation. Changes in air density will change its pressure. At mean sea level and 20°C, air has a density of approximately 1.2 kg/m3.
The viscosity of a substance will change with both temperature and pressure. For liquids the changes induced by a change in temperature are usually more readily observed than the changes from pressure because liquids are only slightly compressible with pressure. In gasses, the changes in viscosity with pressure are much more easily demonstrated because gases are, almost by definition, quite compressible so that the density can be easily changed by either changes in pressure or changes in temperature.
by density change
Density never changes >.<
Matter changing state is usually a result of the material changing temperature and/or a change in the surrounded pressure on the material. The change of state is usually associated with a change in its density.
Pressure is not a change, it is a characteristic.
it changes