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The pressure exerted by a liquid increases with depth. This is known as hydrostatic pressure and is directly proportional to the density of the liquid. The pressure variation with direction is isotropic, meaning it is the same regardless of the direction taken in the liquid.
P= Patm=hpgP= PressurePatm= Atmospheric pressureh= Depthp= Density of liquidg= Gravitational Field Strength
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 greater the depth, the greater the pressure.
Atmospheric pressure Density of the liquid Gravitional field strength in the area the liquid is in The distance from the surface of the liquid i.e. depth Pressure in a liquid=Atmospheric pressure +(Depth X Gravity strength X Density) There might be more I don't know about
The pressure exerted by a liquid increases with depth. This is known as hydrostatic pressure and is directly proportional to the density of the liquid. The pressure variation with direction is isotropic, meaning it is the same regardless of the direction taken in the liquid.
It increases linearly, assuming the liquid is incompressible.
They demonstrate that pressure exerted by a liquid depends on the depth of the liquid. The shape of the container is not a factor.
P= Patm=hpgP= PressurePatm= Atmospheric pressureh= Depthp= Density of liquidg= Gravitational Field Strength
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.
At a greater depth, the weight of all the liquid (or gas) above adds to the pressure.
Liquid pressure depends on depth. It can be calculated from liquid density times depth.
pressure of liquid on bottom=density*gravitational force*depth :)
The greater the depth, the greater the pressure.
Atmospheric pressure Density of the liquid Gravitional field strength in the area the liquid is in The distance from the surface of the liquid i.e. depth Pressure in a liquid=Atmospheric pressure +(Depth X Gravity strength X Density) There might be more I don't know about
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.
All of the forces exerted by the individual molecules in a fluid add together to make up the pressure exerted by the fluid