1. [Los siete planetas] - Beham, Hans Sebald (1500-1550)
Todas firmadas menos el título

2. [Las divinidades que presiden los siete planetas] - Aldegrever, Heinrich (1502-1558?)
Todas firmadas, menos la última, y todas con los nombres de los dioses

3. On Planet And - William R
. Some consequences of migration for the planetary formation process are discussed, Migration of planet-sized objects can caused by disk tidal torques. Two types of a migration identified: a fast orbit decay relative to the disk (type at a rate proportional to the planet's mass, and a slow co-evolution with the disk (type 11) at a rate set by the disk's viscosity. Smaller (larger) execute the former (latter), and a transition I - occurs at a critical mass (Shiva limit). The fast mode is a precarious stage in the planet's development, in which orbital decay threatens to drive the embryo into the star, Comparison of growth...

4. Outer Planet Icy Satellites - Bonnie J
13.57> magnetic field The region around a planet dominated by its and associated charged particles. Apposition Effect: The surge in brightness as a satellite becomes fully illuminated to the observer. Phase The angle between the observer, the satellite, and the sun. Phase Integral: The integrated value of the function which ..---___ ------------ describes the directional scattering properties of a surface. Body: The celestial body (usually a planet) which a satellite, or secondary, orbits. The surface layer of rocky debris created by meteorite impacts. 2 Limit: The distance (equal to 2.44 times the radius of the primary) at which the tidal forces exerted by the primary on the satellite equal the internal gravitational forces of the satellite. Synchronous Rotation: A dynamical...

5. Dynamics Of Planet-Crossing Asteroids - A. Milani
. A small, but by no means negligible, fraction of the small bodies of the Solar System is on planet-crossing orbits, including Earth-crossing ones. The dynamics of planet-crossing asteroids/comets is strongly controlled by the occurrence of close approaches. The node crossing cycle, resulting from the secular evolution of the orbital elements, especially the argument of perihelion, is apparent in the evolution of all the elements, including the semimajor axis. The most common type of orbits defines the Geographos class, in which close approaches occur at random whenever they are made possible by the distance of the orbits. Other orbits are protected from close approaches either by mean motion resonances...

6. Galileo-Jupiter-Apollo; detail of planet - Wehrie, John
detail of planet

7. A Second Planet Orbiting 47 UMa - Debra A. Fischer,Gregory Laughlin
Precise Doppler velocity measurments during 13 years at Lick Observatory reveal the presence of two planets orbiting the star 47 UMa. The previously detected inner planet is confirmed by the newer velocities which yield a revised orbital period P b = 1089.0 2.9d,Msin i =2.54M JUP , and eccentricity e b = 0.061 0.014. The residuals to that single--Keplerian fit exhibit a periodicity that is consistent with an additional planetary companion. A simultaneous fit for both planets implies that the outer planet has P c = 2594 90 d, a =3.73 AU, 0
8. First Results from the Anglo-Australian Planet Search: A Brown Dwarf Candidate and a 51 Peg-Like Planet
We report results from the Anglo-Australian Planet Search, a survey for planets around 200 solar-type stars in the southern hemisphere that is being carried out on the 3.9 m Anglo-Australian Telescope. Limiting Doppler precisions of3ms~1 have been demonstrated from the rst 2.5 years of operation, making this the highest-precision planet search in the southern hemisphere. From these data we report results for two new substellar detections. The rst is a 51 Peglike planet around the star HD 179949 with M sin i 0.84 Photometric study reveals this is not a transiting system. The second is a M JUP . brown dwarf or very low mass star companion to...

9. The Closest Extrasolar Planet - X. Delfosse,T. Forveille,M. Mayor,C. Perrier,D. Naef,D. Queloz
. Precise radial velocity observations of the nearby M4 dwarf Gl 876 with the Observatoire de Haute Provence 1.93 m telescope and the new 1.20 m swiss telescope at la Silla indicate the presence of a jovian mass companion to this star. The orbital fit to the data gives a period of 60.8 days, a velocity amplitude of 246m.s Gamma1 and an eccentricity of 0.34. Assuming that Gl 876 has a mass of 0.3 M fi , the mass function implies a mass for the companion of 2/sin i Jupiter masses. Key words: giant planet formation -- extrasolar planets -- giant planets -- M dwarf stars 1. Introduction The still recent discovery of...

10. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

11. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

12. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

13. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

14. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

15. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

16. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

17. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internet-like services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in OCaml, a dialect of ML. Currently, PLANet routers run as byte-code-interpreted Linux userspace applications, and support Ethernet and IP as link layers. PLANet achieves respectable performance on standard networking operations: on 300 MHz Pentium-II's attached to 100 Mbps Ethernet, PLANet can route 48 Mbps and switch over 5000 packets per second. We...

18. The Planet Around 51 - Geoffrey W. R. Paul,Lars Bildsten,James Graham
Doppler measurements of 51 Pegasi have been made from 1995 October through 1996 August, with a precision of5ms~1. We nd a period of 4.231 days, a velocity amplitude of 56 ^1ms~1, and a velocity curve that is essentially sinusoidal, all in excellent agreement with Mayor & Queloz. The only viable interpretation is a companion having minimum mass, m sin i 0.45 in a circular orbit of M Jupiter , radius of 0.051 AU, with an eccentricity less than 0.01. Alternative explanations involving stellar surface phenomena such as pulsation or spots are ruled out. The lack of tidal spin-up of the star constrains the mass of the companion to...

19. PLANet: An Active Internetwork - Michael Hicks,Jonathan T. Moore,D. Scott Alex,Carl A. Gunter,Scott M. Nettles
We present PLANet: an active network architecture and implementation. In addition to a standard suite of Internetlike services, PLANet has two key programmability features: 1. all packets contain programs 2. router functionality may be extended dynamically Packet programs are written in our special purpose programming language PLAN, the Packet Language for Active Networks, while dynamic router extensions are written in Caml, a byte-code-interpreted dialect of ML.

20. PlaNet Tutorial and Reference Manual - Dagmar Handke,Gabriele Neyer,Lehrstuhl Für Praktische Informatik I
this paper, and to add own new classes and algorithms. There are only three conditions that have to be fulfilled: ffl For each algorithm of a problem class P that is to be integrated into PlaNet, P has to be integrated in PlaNet.

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