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celinelee
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python_fn_calls

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np.exp((3036. / t_l - 1.78)
check_units('[pressure]', '[temperature]')
saturation_equivalent_potential_temperature(pressure, temperature)
ln(T_{K}/T_{D})
left(\frac{1000}{p-e}\right)
left(\frac{T_{K}}{T_{L}}\right)
left(\frac{1000}{p-e}\right)
r(1+.448r)
used (for saturated case)
temperature.to('kelvin')
pressure.to('hPa')
saturation_vapor_pressure(temperature)
to('hPa')
saturation_mixing_ratio(pressure, temperature)
np.exp((3036. / t - 1.78)
check_units('[temperature]', '[dimensionless]', '[dimensionless]')
virtual_temperature(temperature, mixing_ratio, molecular_weight_ratio=mpconsts.epsilon)
air. (:math:`\epsilon\approx0.622`)
check_units('[pressure]', '[temperature]', '[dimensionless]', '[dimensionless]')
air. (:math:`\epsilon\approx0.622`)
potential_temperature(pressure, temperature)
virtual_temperature(pottemp, mixing_ratio, molecular_weight_ratio)
check_units('[pressure]', '[temperature]', '[dimensionless]', '[dimensionless]')
density(pressure, temperature, mixing_ratio, molecular_weight_ratio=mpconsts.epsilon)
air. (:math:`\epsilon\approx0.622`)
virtual_temperature(temperature, mixing_ratio, molecular_weight_ratio)
return (pressure / (mpconsts.Rd * virttemp)
to(units.kilogram / units.meter ** 3)
check_units('[pressure]', '[temperature]', '[temperature]')
saturation_vapor_pressure(dry_bulb_temperature)
check_units('[pressure]', '[temperature]', '[temperature]')
_w(T_w)
p (T - T_w)
_w(T_w)
return (saturation_vapor_pressure(wet_bulb_temperature)
to('kelvin')
check_units('[pressure]', '[temperature]', '[dimensionless]')
mixing_ratio_from_relative_humidity(pressure, temperature, relative_humidity)
saturation_mixing_ratio(pressure, temperature)
to('dimensionless')
check_units('[pressure]', '[temperature]', '[dimensionless]')
relative_humidity_from_mixing_ratio(pressure, temperature, mixing_ratio)
saturation_mixing_ratio(pressure, temperature)
check_units('[dimensionless]')
mixing_ratio_from_specific_humidity(specific_humidity)
specific_humidity.to('dimensionless')
check_units('[dimensionless]')
specific_humidity_from_mixing_ratio(mixing_ratio)
mixing_ratio.to('dimensionless')
check_units('[pressure]', '[temperature]', '[dimensionless]')
relative_humidity_from_specific_humidity(pressure, temperature, specific_humidity)
return (mixing_ratio_from_specific_humidity(specific_humidity)
saturation_mixing_ratio(pressure, temperature)
check_units('[pressure]', '[temperature]', '[temperature]', '[temperature]')
energy (CAPE)
inhibition (CIN)
EL (or top of sounding)
level(s)
Energy (CAPE)
INhibition (CIN)
np.isnan(lfc_pressure)
units('J/kg')
units('J/kg')
np.isnan(el_pressure)
to(units.degK)
_find_append_zero_crossings(np.copy(pressure)
_less_or_close(x.m, lfc_pressure)
_greater_or_close(x.m, el_pressure)
np.trapz(y_clipped, np.log(x_clipped)
to(units('J/kg')
_greater_or_close(x.m, lfc_pressure)
np.trapz(y_clipped, np.log(x_clipped)
to(units('J/kg')
value (#1190)
units('J/kg')
units('J/kg')
_find_append_zero_crossings(x, y)
find_intersections(x[1:], y[1:], np.zeros_like(y[1:])
concatenate((x, crossings[0])
concatenate((y, crossings[1])
np.argsort(x)
np.ediff1d(x.magnitude, to_end=[1])
check_units('[pressure]', '[temperature]', '[temperature]')
None (the default)
equivalent_potential_temperature(p_layer, t_layer, td_layer)
np.argmax(theta_e)
check_units('[temperature]', '[pressure]', '[temperature]')
_isen_iter(iter_log_p, isentlevs_nd, ka, a, b, pok)
np.exp(-ka * iter_log_p)
pressure.to('hPa')
temperature.to('kelvin')
slice(None)
tuple(slices)
np.broadcast_to(pres[slices].magnitude, temperature.shape)
np.argsort(pres.m, axis=axis)
np.swapaxes(np.swapaxes(sort_pres, 0, axis)
broadcast_indices(pres, sort_pres, ndim, axis)
np.asarray(levels.m_as('kelvin')
reshape(-1)
np.argsort(levels)