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Kinetic inhibition of CO and N2 reduction in the solar nebula (1980)

Lewis, J. S. ; Prinn, R. G.

In: Other Sources

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Publication Date: 2019-06-27

Description: It is shown that the conversion of CO to methane and of N2 to ammonia in the primitive solar nebula was probably so slow relative to radial mixing rates or nebula evolutionary rates that only small amounts of NH3 and CH4 could have been present. Thus most of the nitrogen was present as N2 and most of the carbon as CO and CO2 throughout the nebula. The consequences of this kinetic effect upon the composition of cometary ices and of the Jovian planets, the melting and outgassing behavior of ice rich planetary satellites, and the abundance of carbon in the terrestrial planets are briefly discussed.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 238

Format: text

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Chemistry of solar material (1975)

Lewis, J. S. ; Barshay, S. S.

In: Other Sources

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Publication Date: 2019-06-27

Description: The calculated chemical compositions of the gaseous and condensed phases in the primitive solar nebula are presented for both equilibrium and disequilibrium condensation. The implications for the compositions of individual solar-system bodies will be briefly discussed. Condensation from an otherwise solar-composition gas in which carbon is more abundant than oxygen is mentioned.

Keywords: SOLAR PHYSICS

Format: text

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Volatile element chemistry in the solar nebula - Na, K, F, Cl, Br, and P (1980)

Fegley, B., Jr. ; Lewis, J. S.

In: Other Sources

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Publication Date: 2019-06-27

Description: The results of the most extensive set to date of thermodynamic calculations on the equilibrium chemistry of several hundred compounds of the elements Na, K, F, Cl, Br, and P in a solar composition system are reported. Two extreme models of accretion are investigated. In one extreme complete chemical equilibrium between condensates and gases is maintained because the time scale for accretion is long compared to the time scale for cooling or dissipation of the nebula. Condensates formed in this homogeneous accretion model include several phases such as whitlockite, alkali feldspars, and apatite minerals which are found in chondrites. In the other extreme complete isolation of newly formed condensates from prior condensates and gases occurs due to a time scale for accretion that is short relative to the time required for nebular cooling or dissipation. The condensates produced in this heterogeneous accretion model include alkali sulfides, ammonium halides, and ammonium phosphates. None of these phases are found in chondrites. Available observations of the Na, K, F, Cl, Br, and P elemental abundances in the terrestrial planets are found to be compatible with the predictions of the homogeneous accretion model.

Keywords: SOLAR PHYSICS

Type: Icarus; 41; Mar. 198

Format: text

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