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python_fn_calls

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so.fixed_point(_lcl_iter, pressure.m, args=(pressure.m, w, temperature)
np.where(np.isclose(lcl_p, pressure.m)
globals()
vapor_pressure(lcl_p, w)
to(temperature.units)
check_units('[pressure]', '[temperature]', '[temperature]', '[temperature]')
convection (LFC)
_remove_nans(pressure, temperature, dewpoint)
parcel_profile_with_lcl(pressure, temperature, dewpoint)
parcel_temperature_profile.to(temperature.units)
np.isclose(parcel_temperature_profile[0].to(temperature.units)
lcl(pressure[0], parcel_temperature_profile[0], dewpoint_start)
len(x)
np.all(_less_or_close(parcel_temperature_profile[mask], temperature[mask])
any(idx)
np.min(el_pres)
zip(lfc_p_list, el_p_list)
return (p_list[np.where(diff == np.max(diff)
np.where(diff == np.max(diff)
cape_list.append(cape.m)
pair_list.append([which_lfc, which_el])
np.where(cape_list == np.max(cape_list)
check_units('[pressure]', '[temperature]', '[temperature]', '[temperature]')
el(pressure, temperature, dewpoint, parcel_temperature_profile=None, which='top')
_remove_nans(pressure, temperature, dewpoint)
parcel_profile_with_lcl(pressure, temperature, dewpoint)
parcel_temperature_profile.to(temperature.units)
np.log()
lcl(pressure[0], temperature[0], dewpoint[0])
len(x)
check_units('[pressure]', '[temperature]', '[temperature]')
parcel_profile(pressure, temperature, dewpoint)
level(s)
_parcel_profile_helper(pressure, temperature, dewpoint)
concatenate((t_l, t_u)
check_units('[pressure]', '[temperature]', '[temperature]')
parcel_profile_with_lcl(pressure, temperature, dewpoint)
level(s)
concatenate((p_l, p_lcl, p_u)
concatenate((t_l, t_lcl, t_u)
_insert_lcl_level(pressure, temperature, p_lcl)
_insert_lcl_level(pressure, dewpoint, p_lcl)
_parcel_profile_helper(pressure, temperature, dewpoint)
lcl(pressure[0], temperature, dewpoint)
press_lcl.to(pressure.units)
concatenate((pressure[pressure >= press_lcl], press_lcl)
dry_lapse(press_lower, temperature)
_greater_or_close(np.nanmin(pressure.m)
return (press_lower[:-1], press_lcl, units.Quantity(np.array([])
units.Quantity(np.array([])
concatenate((press_lcl, pressure[pressure < press_lcl])
moist_lapse(press_upper, temp_lower[-1])
to(temp_lower.units)
_insert_lcl_level(pressure, temperature, lcl_pressure)
interpolate_1d(lcl_pressure, pressure, temperature)
searchsorted(lcl_pressure)
np.insert(temperature.m, loc, interp_temp.m)
check_units('[pressure]', '[dimensionless]')
vapor_pressure(pressure, mixing_ratio)
vapor (partial)
vapor (partial)
check_units('[temperature]')
saturation_vapor_pressure(temperature)
vapor (partial)
vapor (partial)
actual (ambient)
vapor (partial)
np.exp(17.67 * (temperature - 273.15 * units.kelvin)
check_units('[temperature]', '[dimensionless]')
dewpoint_from_relative_humidity(temperature, relative_humidity)
np.any(relative_humidity > 1.2)
warnings.warn('Relative humidity >120%, ensure proper units.')
dewpoint(relative_humidity * saturation_vapor_pressure(temperature)
check_units('[pressure]')
dewpoint(vapor_pressure)
log(e / 6.112)
log(e / 6.112)
np.log(vapor_pressure / sat_pressure_0c)
check_units('[pressure]', '[pressure]', '[dimensionless]')
mixing_ratio(partial_press, total_press, molecular_weight_ratio=mpconsts.epsilon)
air (:math:`\epsilon\approx0.622`)
The (mass)
dimensionless (e.g. Kg/Kg or g/g)
to('dimensionless')
check_units('[pressure]', '[temperature]')
saturation_mixing_ratio(total_press, temperature)
mixing_ratio(saturation_vapor_pressure(temperature)
check_units('[pressure]', '[temperature]', '[temperature]')
equivalent_potential_temperature(pressure, temperature, dewpoint)
ln(T_{K}/T_{D})
left(\frac{1000}{p-e}\right)
left(\frac{T_{K}}{T_{L}}\right)
r(1+.448r)
temperature.to('kelvin')
dewpoint.to('kelvin')
pressure.to('hPa')
saturation_vapor_pressure(dewpoint)
to('hPa')
saturation_mixing_ratio(pressure, dewpoint)
np.log(t / td)