# Height

## Height formulas

\(\large{ h_l = \frac{ p_b \; - \; p_t }{ \rho \; g } }\) | (Pascal's law) |

\(\large{ h = \frac {PE} {m \; g} }\) | (potential energy) |

### Where:

\(\large{ h }\) = height

\(\large{ h_l }\) = height of depth of the liquid column

\(\large{ \rho }\) (Greek symbol rho) = density

\(\large{ g }\) = gravitational acceleration

\(\large{ m }\) = mass

\(\large{ PE }\) = potential energy

\(\large{ p_b }\) = pressure at bottom of column

\(\large{ p_t }\) = pressure at top of column

Tags: Equations for Pressure Equations for Gravity Equations for Density