Barometric formula

From Wikipedia, the free encyclopedia

The barometric formula, sometimes called the exponential atmosphere or isothermal atmosphere, is a formula used to model how the pressure (or density) of the air changes with altitude.

Contents

See also: Atmospheric pressure

There are two different equations for computing pressure at various height regimes below 86 km (or 278,400 feet). Equation 1 is used when the value of standard temperature lapse rate is not equal to zero and equation 2 is used when standard temperature lapse rate equals zero.

Equation 1:

{P}=P_b \cdot \left[\frac{T_b}{T_b + L_b\cdot(h-h_b)}\right]^\frac{g_0 \cdot M}{R^* \cdot L_b}

Equation 2:

{P}=P_b \cdot \exp \left[\frac{-g_0 \cdot M \cdot (h-h_b)}{R^* \cdot T_b}\right]

where

P = Static pressure (pascals)
T = Standard temperature (kelvins)
L = Standard temperature lapse rate (kelvins per meter)
h = Height above sea level (meters)
R * = Universal gas constant for air: 8.31432×103 N·m / (kmol·K)
g0 = Gravitational constant (9.80665 m/s²)
M = Molar mass of Earth's air (28.9644 g/mol)


Or converted to English units:[1]

where

P = Static pressure (inches of mercury)
T = Standard temperature (kelvins)
L = Standard temperature lapse rate (kelvins per foot)
h = Height above sea level (feet)
R * = Universal gas constant (using feet and kelvins and gram moles: 8.9494596×104 kg·ft2·s-2·K-1·kmol-1)
g0 = Gravitational constant (32.17405 ft/s²)
M = Molar mass of Earth's air (28.9644 g/mol)

The value of subscript b ranges from 0 to 6 in accordance with each of seven successive layers of the atmosphere shown in the table below. In these equations, g0, M and R* are each single-valued constants, while P, L, T, and h are multivalued constants in accordance with the table below. It should be noted that the values used for M, g0, and R * are in accordance with the U.S. Standard Atmosphere, 1976, and that the value for R * in particular does not agree with standard values for this constant.[2] The reference value for Pb for b = 0 is the defined sea level value, P0 = 101325 pascals or 29.92126 inHg. Values of Pb of b = 1 through b = 6 are obtained from the application of the appropriate member of the pair equations 1 and 2 for the case when h = hb + 1.:[2]

Subscript b Height Above Sea Level Static Pressure Standard Temperature
(K)		 Temperature Lapse Rate
(m) (ft) (pascals) (inHg) (K/m) (K/ft)
0 0 0 101325 29.92126 288.15 -0.0065 -0.0019812
1 11,000 36,089 22632.1 6.683245 216.65 0.0 0.0
2 20,000 65,617 5474.89 1.616734 216.65 0.001 0.0003048
3 32,000 104,987 868.019 0.2563258 228.65 0.0028 0.00085344
4 47,000 154,199 110.906 0.0327506 270.65 0.0 0.0
5 51,000 167,323 66.9389 0.01976704 270.65 -0.0028 -0.00085344
6 71,000 232,940 3.95642 0.00116833 214.65 -0.002 -0.0006096

The expressions for calculating density are nearly identical to calculating pressure. The only difference is the exponent in Equation 1.

There are two different equations for computing density at various height regimes below 86 geometric km (84,852 geopotential meters or 278,385.8 geopotential feet). Equation 1 is used when the value of Standard Temperature Lapse rate is not equal to zero and equation 2 is used when Standard Temperature Lapse rate equals zero.

Equation 1:

{\rho}=\rho_b \cdot \left[\frac{T_b}{T_b + L_b\cdot(h-h_b)}\right]^{\left(\frac{g_o \cdot M}{R^* \cdot L_b}\right)+1}


Equation 2:

{\rho}=\rho_b \cdot exp\left[\frac{-g_o \cdot M \cdot (h-h_b)}{R^* \cdot T_b}\right]

where

ρ = Mass Density (kg/m3)
T = Standard temperature (kelvins)
L = Standard temperature lapse rate (kelvins per meter)
h = Height above sea level (geopotential meters)
R * = Universal gas constant for air: 8.31432×103 N·m / (kmol·K)
g0 = Gravitational constant (9.80665 m/s²)
M = Molar mass of Earth's air (28.9644 g/mol)


Or converted to English units:[1]

Where

ρ = Mass Density (slugs/Ft3)
T = Standard Temperature (degrees Kelvin)
L = Standard Temperature Lapse Rate (degrees Celsius per foot)
h = Height above Sea Level (geopotential feet)
R * = Universal Gas Constant (converted to English units: 8.9494596 X 104 Ft2/sec2 K)
go = Gravitational Constant (32.17405 Ft/sec2)
M = Molar Mass of Earth's Air (28.9644 grams per mole)


The value of subscript b ranges from 0 to 6 in accordance with each of seven successive layers of the atmosphere shown in the table below. The reference value for ρb for b = 0 is the defined sea level value, ρo = 1.2250 kg/m3 or 0.0023768908 slugs/Ft3. Values of ρb of b = 1 through b = 6 are obtained from the application of the appropriate member of the pair equations 1 and 2 for the case when h = hb + 1 [2]


In these equations, go, M and R* are each single-valued constants, while ρ, L, T and h are multi-valued constants in accordance with the table below. It should be noted that the values used for M, go and R * are in accordance with the U.S. Standard Atmosphere, 1976, and that the value for R * in particular does not agree with standard values for this constant.[2].

Subscript b Height Above Sea Level (h) Mass Density (ρ) Standard Temperature (T)
(K)		 Temperature Lapse Rate (L)
(m) (ft) (kg/m3) (slugs/Ft3) (K/m) (K/ft)
0 0 0 1.2250 2.3768908 x 10− 3 288.15 -0.0065 -0.0019812
1 11,000 36,089.24 0.36391 7.0611703 x 10− 4 216.65 0.0 0.0
2 20,000 65,616.79 0.08803 1.7081572 x 10− 4 216.65 0.001 0.0003048
3 32,000 104,986.87 0.01322 2.5660735 x 10− 5 228.65 0.0028 0.00085344
4 47,000 154,199.48 0.00143 2.7698702 x 10− 6 270.65 0.0 0.0
5 51,000 167,322.83 0.00086 1.6717895 x 10− 6 270.65 -0.0028 -0.00085344
6 71,000 232,939.63 0.000064 1.2458989 x 10− 7 214.65 -0.002 -0.0006096

The barometric formula can be derived fairly easily using the ideal gas law:

\rho = \frac{M \cdot P}{R^* \cdot T}

When density is known:

P = \frac{\rho \cdot {R^*} \cdot T}{M}

And assuming that all pressure is hydrostatic:

dP = - \rho g\,dz\,

Substituting the first expression into the second we get:

\frac{dP}{P} = - \frac{M g\,dz}{RT}

Integrating this expression from the surface to the altitude z we get:

P = P_0 e^{-\int_{0}^{z}{M g dz/RT}}\,

Assuming constant temperature, molar mass, and gravitational acceleration, we get the barometric formula:

P = P_0 e^{-M g z/RT}\,

In this formulation, R is the gas constant, and the term RT / Mg gives the scale height (approximately equal to 7.4 km for the troposphere).

  1. ^ a b Mechtly, E. A., 1973: The International System of Units, Physical Constants and Conversion Factors. NASA SP-7012, Second Revision, National Aeronautics and Space Administration, Washington, D.C.
  2. ^ a b c d U.S. Standard Atmosphere, 1976, U.S. Government Printing Office, Washington, D.C., 1976. (Linked file is very large.)

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