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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.
The factors on which pressure exerted by liquids depends are: 1. The density of the liquid 2. Acceleration due to gravity and 3. Depth of the point below the surface of the liquid.
Thermal expansion is the dimensional changes exhibits by solids, liquids, and gases for changes in temperature while pressure is held constant.
Depth and temperature affect pressure by increasing the pressure as the depth increases. As depth increases, temperature often falls.
The greater the depth, the greater the pressure.
atmospheric pressure changes as depth changes because the further down you go, the more pressure there is. in other words, the pressure increases as the atmosphere gets deeper. :3
Cooling and/or pressure changes gases to liquids.
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.
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.
liquids and solids
The factors on which pressure exerted by liquids depends are: 1. The density of the liquid 2. Acceleration due to gravity and 3. Depth of the point below the surface of the liquid.
The primary change is of pressure, increasing at 1 Bar per 10 metres of depth; but in the oceans, the temperature and salinity also alter in subtle ways.
Thermal expansion is the dimensional changes exhibits by solids, liquids, and gases for changes in temperature while pressure is held constant.
Depth and temperature affect pressure by increasing the pressure as the depth increases. As depth increases, temperature often falls.
The solubility of solids and liquids show virtually no changes with pressure. However, solubility increases with pressure in the solubility of gases in liquids.
There is so much pressure that the hydrogen gas gets turned into a liquid, a metallic state.
Water pressure increases as depth increases.