Add first module : constant.py
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# Distributed under the terms of the BSD 3-Clause License.
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# Distributed under the terms of the BSD 3-Clause License.
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# SPDX-License-Identifier: BSD-3-Clause
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# SPDX-License-Identifier: BSD-3-Clause
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# pylint: disable=line-too-long
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r"""A collection of meteorologically significant constant and thermophysical property values.
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r"""A collection of meteorologically significant constant and thermophysical property values.
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Earth
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Earth
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@ -70,13 +72,17 @@ molecular_weight_ratio :math:`\epsilon` epsilon :math:`\text{None}`
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.. [8] [Picard2008]_
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.. [8] [Picard2008]_
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""" # noqa: E501
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""" # noqa: E501
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# pylint: enable=line-too-long
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# pylint: disable=invalid-name
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# Earth
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# Earth
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earth_gravity = g = 9.80665 # 'm / s^2'
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earth_gravity = g = 9.80665 # 'm / s^2'
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Re = earth_avg_radius = 6371008.7714 # 'm'
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Re = earth_avg_radius = 6371008.7714 # 'm'
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G = gravitational_constant = 6.67430e-11 # 'm^3 / kg / s^2'
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G = gravitational_constant = 6.67430e-11 # 'm^3 / kg / s^2'
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GM = geocentric_gravitational_constant = 3986005e8 # 'm^3 / s^2'
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GM = geocentric_gravitational_constant = 3986005e8 # 'm^3 / s^2'
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omega = earth_avg_angular_vel = 7292115e-11 # 'rad / s'
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omega = earth_avg_angular_vel = 7292115e-11 # 'rad / s'
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d = earth_sfc_avg_dist_sun = 149597870700. # 'm'
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d = earth_sfc_avg_dist_sun = 149597870700.0 # 'm'
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S = earth_solar_irradiance = 1360.8 # 'W / m^2'
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S = earth_solar_irradiance = 1360.8 # 'W / m^2'
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delta = earth_max_declination = 23.45 # 'degrees'
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delta = earth_max_declination = 23.45 # 'degrees'
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earth_orbit_eccentricity = 0.0167 # 'dimensionless'
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earth_orbit_eccentricity = 0.0167 # 'dimensionless'
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@ -108,14 +114,13 @@ Cp_d = dry_air_spec_heat_press = (
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dry_air_spec_heat_ratio * Rd / (dry_air_spec_heat_ratio - 1)
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dry_air_spec_heat_ratio * Rd / (dry_air_spec_heat_ratio - 1)
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)
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)
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Cv_d = dry_air_spec_heat_vol = Cp_d / dry_air_spec_heat_ratio
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Cv_d = dry_air_spec_heat_vol = Cp_d / dry_air_spec_heat_ratio
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#TODO : check unit conversion
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# TODO : check unit conversion
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rho_d = dry_air_density_stp = (1000., 'mbar') / (Rd * 273.15, 'K'))
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# rho_d = dry_air_density_stp = (1000., 'mbar') / (Rd * 273.15, 'K'))) # 'kg / m^3'
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).to('kg / m^3')
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# General meteorology constants
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# General meteorology constants
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P0 = pot_temp_ref_press = 1000. # 'mbar'
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P0 = pot_temp_ref_press = 1000.0 # 'mbar'
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#TODO : check unit conversion
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# TODO : check unit conversion
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kappa = poisson_exponent = (Rd / Cp_d).to('dimensionless')
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kappa = poisson_exponent = Rd / Cp_d # 'dimensionless'
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gamma_d = dry_adiabatic_lapse_rate = g / Cp_d
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gamma_d = dry_adiabatic_lapse_rate = g / Cp_d
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#TODO : check unit conversion
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# TODO : check unit conversion
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epsilon = molecular_weight_ratio = (Mw / Md).to('dimensionless')
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epsilon = molecular_weight_ratio = Mw / Md # 'dimensionless'
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