Motivation
Output
Input
z | \rho_0 | Fluid density at Logging reference point z_0 | |
z_0 | Logging reference point (usually at surface) | c_0 | |
g | Standard gravity constant |
Equation
(1) | p(z) = p_0 \cdot \exp \left[ - \frac{\rho_0 \, g}{p_0} \cdot (z-z_0) \right] = p_0 \cdot \exp \left[ - \frac{M }{R \, T} \cdot (z-z_0) \right] |
where
z | \rho_0 | Gas density at Logging reference point z_0 | |
z_0 | Logging reference point (usually at surface) | c_0 | |
g | Standard gravity constant | p_0 | Gas pressure at Logging reference point z_0 |
R | Gas constant | M | Gas molar mass |
See also
Physics / Mechanics / Continuum mechanics / Fluid Mechanics / Fluid Statics
[ Fluid Dynamics ]