Aerodynamical Accretion Simon Künzli University of Bern / /
IndustryTerm
continuous and non-turbulent gas / gas distribution / nebular gas flows / gas drag / gas flow / analytical solution / gas molecules / hydrodynamic gas flow / kinetic energy / nebular gas / gas vg pis / interstellar gas cloud / rarefied gas / gas parameter / elementary kinematic gas model / power law / energy threshold / nebular gas flow / power law size distribution / gas drag effect / molecular gas flow / size-dependent gas drag results / steady gas flow / consistent numerical solution / /
Organization
African Union / Aerodynamical Accretion Simon Künzli University of Bern / /
Person
Willy Benz / Tf / /
Position
rt / ~vt respectively / same author / radius rt / ~vp and rt / rp rt / definition rt / mcrat /mp / mp / rt / target rt / πrt / large rt / vf and large rt / ~vp / /
PublishedMedium
The Astrophysical Journal / Journal of Geophysical Research / /
1 Aerodynamical Accretion Simon Künzli University of Bern (Switzerland) Abstract—In the process of planetary formation, growth of meter-sized bodies is not well understood. Since surface forces are no