thickness_hydrostatic¶
-
metpy.calc.
thickness_hydrostatic
(pressure, temperature, mixing=None, molecular_weight_ratio=<Quantity(0.621980086, 'dimensionless')>, bottom=None, depth=None)[source]¶ Calculate the thickness of a layer via the hypsometric equation.
This thickness calculation uses the pressure and temperature profiles (and optionally mixing ratio) via the hypsometric equation with virtual temperature adjustment
\[Z_2 - Z_1 = -\frac{R_d}{g} \int_{p_1}^{p_2} T_v d\ln p,\]which is based off of Equation 3.24 in [Hobbs2006].
This assumes a hydrostatic atmosphere.
Layer bottom and depth specified in pressure.
- Parameters
pressure (
pint.Quantity
) – Atmospheric pressure profiletemperature (
pint.Quantity
) – Atmospheric temperature profilemixing (
pint.Quantity
, optional) – Profile of dimensionless mass mixing ratio. If none is given, virtual temperature is simply set to be the given temperature.molecular_weight_ratio (
pint.Quantity
or float, optional) – The ratio of the molecular weight of the constituent gas to that assumed for air. Defaults to the ratio for water vapor to dry air. (\(\epsilon\approx0.622\)).bottom (
pint.Quantity
, optional) – The bottom of the layer in pressure. Defaults to the first observation.depth (
pint.Quantity
, optional) – The depth of the layer in hPa. Defaults to the full profile if bottom is not given, and 100 hPa if bottom is given.
- Returns
pint.Quantity
– The thickness of the layer in meters.