Astrophysics and the solar nebula

Autoria(s): Nuth, Joseph A.; Tomasko, Martin; Nuth, Jossep; Duley, Walter; Goebel, John; Greenberg, J. Mayo; Kerridge, John; Lin, Douglas; Mackinnon, Ian D.R.; Rietmeijer, Frans J.M.; Stephens, John
Data(s)

1987
Resumo

The following types of experiments for a proposed Space Station Microgravity Particle Research Facility are described: (1) nucleation of refractory vapors at low pressure/high temperature; (2) coagulation of refractory grains; (3) optical properties of refractory grains; (4) mantle growth on refractory cores; (5) coagulation of core-mantle grains; (6) optical properties of core-mantle grains; (7) lightning strokes in the primitive solar nebula; and (8) separation of dust from a grain/gas mixture that interacts with a meter-sized planetesimal to determine if accretion occurs. The required capabilities and desired hardware for the facility are detailed.
Identificador

http://eprints.qut.edu.au/58807/
Publicador

NASA
Relação

http://archive.org/details/nasa_techdoc_19880005973

Nuth, Joseph A., Tomasko, Martin, Nuth, Jossep, Duley, Walter, Goebel, John, Greenberg, J. Mayo, Kerridge, John, Lin, Douglas, Mackinnon, Ian D.R., Rietmeijer, Frans J.M., & Stephens, John (1987) Astrophysics and the solar nebula. In Microgravity Particle Research on Space Station.
Fonte

Institute for Future Environments
Palavras-Chave #020100 ASTRONOMICAL AND SPACE SCIENCES #040302 Extraterrestrial Geology #condensation experiments #low gravity #space station experiments
Tipo

Conference Paper
Acesso ao item digital