Is Pressure Constant Along the Horizontal Axis in a Fluid Element?

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Pressure remains constant along the horizontal x-axis in a fluid element, while it varies with depth along the vertical z-axis, described by the equation dP/dz = -density.g. The integral of this equation, p(z) - p(z1) = -density.g(z-z1), holds true only if density is constant. Incompressibility implies that the density of a fluid particle is constant, but the density field can vary over time due to different particles occupying the same spatial point. Therefore, while individual fluid particles maintain constant density, the overall density field may change unless all particles share the same density. Understanding these concepts is crucial for analyzing fluid behavior in continuum mechanics.
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If you have a rectangular fluid element verticle z-axis and a horizontal x-axis, pressure is constant along the x=axis, but p=f(z) along the z-axis.

If \frac{dP}{dz}=-density.g

is the integral of \frac{dP}{dz} equal to p(z) - p(z1) = -density.g(z-z1)?
 
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That would be true only if the denisity is constant. Also, be careful with your signs on the right hand side.
 
Assume it is a liquid and therefore (practically) incompressible.
 
Incompressibility does not entail that the density field is constant.
 
Density = mass / volume.

If the volume doesn't change (incompressible), surely the mass wouldn't change?
 
In continuum mechanics, we use density FIELDS, rather than particle densities.

Incompressibility entails that the density of A FLUID PARTICLE remains constant; but because the individual fluid particles may jump around in space, it does not follow that the density FIELD is constant.

The field measures the density of whatever particle happens to be AT A FIXED POINT IN SPACE; since it may be different fluid particles which occupy that point at DIFFERENT TIMES, the density field, evaluated at that point may change in time.

If you suppose in addition that all particles has the SAME density, then the density field will be constant.
Get it?
 

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