On the origin of the solar system and of Jupiter and its satellites
Abstract
The evolution of the middle part of the primitive solar nebula is traced through seven stages: (1) a gravitational instability which clumps condensed material into bodies of appreciable size; (2) the formation of a larger body as a result of mutual collisions; (3) gravitational condensation of the gas in the nebula; (4) subsequent hydrodynamic collapse of the gas onto a heavy-element planetary core; (5) the attainment of a highly distended hydrostatic configuration and its subsequent slow gravitational contraction; (6) the formation of a gaseous disk around proto-Jupiter; and (7) the formation of the Galilean satellites (and Amalthea) within this disk. Different theories on the origin of the primitive solar nebula are reviewed, models of Jupiter are evaluated, and the origin and evolution of the planet are traced through the indicated stages. It is proposed that Jupiter's current excess luminosity is due mostly to a loss of internal energy generated during the initially more rapid contraction period and, to a lesser degree, to the planet's current release of gravitational energy. The question of when the icy constituent was added to the outer two Galilean satellites is considered.
- Publication:
-
IAU Colloq. 30: Jupiter: Studies of the Interior, Atmosp here, Magnetosphere and Satellites
- Pub Date:
- 1976
- Bibcode:
- 1976jsia.coll...61C
- Keywords:
-
- Gravitational Collapse;
- Natural Satellites;
- Planetary Evolution;
- Solar System;
- Cosmology;
- Energy Dissipation;
- Gravitational Effects;
- Internal Energy;
- Nebulae;
- Planetary Structure;
- Planetology;
- Stellar Evolution;
- Lunar and Planetary Exploration