Journal of Physics Special Topics

... an ideal radiation flux for life, it could be beneficial to move Europa to a larger orbit. Once Europa is thawed, several problems remain which would make the moon’s surface unsuitable for life. Atmospheres are important for life as they provide protection from meteors and radiation, among other rea ...

Last Class Today`s Class Jupiter

... Io (shown here): active volcanoes all over Europa: possible subsurface ocean Ganymede: largest moon in solar system Callisto: a large, cratered "ice ball" ...

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... positions, secular resonances (which occur when the orbit of an asteroid processes at the same rate as a planet) swept across the entire belt14. These resonances can drive asteroids onto orbit with eccentricities and inclinations large enough to allow them to evolve into the inner Solar System and h ...

LETTERS

... positions, secular resonances (which occur when the orbit of an asteroid processes at the same rate as a planet) swept across the entire belt14. These resonances can drive asteroids onto orbit with eccentricities and inclinations large enough to allow them to evolve into the inner Solar System and h ...

Imaging Uranus

... Herschel believed he had discovered six satellites of Uranus but it became clear that four of these were actually background stars. His first two satellites, subsequently named Titania and Oberon, were genuine discoveries. A third, Ariel, was found by William Lassell on 1847 Sept 14, and the fourth, ...

Our Place In Space

... Our Place In Space Table of Contents Crossword Puzzle and Clues ........................................................................................................ 1 ...

plutinos

... The graph plots a (the semi-major axis distance) of various asteroids versus the number of asteroids found at that distance. Note that the distribution is not uniform; there are some distances that have many asteroids and some distances (called gaps) that have comparatively few or none. It is the p ...

Document

... spin (spin, not the orbital rotation) is determined by the history of the planet ...

Planetary Formation - Scholarly Commons @ Ouachita

... the outer solar nebula and lasted only a few thousand years. Once the rotation had passed completely from inner to outer solar nebula, the planets formed (Kaufmann, Planets 11). After the protosun formed, the temperatures in the solar nebula began to drop and materials began to solidify. ...

Test yourself on the crossword! Increase your knowledge

... This is because it is such a large planet (the gravitational force a planet exerts upon an object at the planet's surface is proportional to its mass and to the inverse of its radius squared). 9) The gravity on Uranus is only 91% of the gravity on Earth because it is such a large planet- gravity in ...

Information extracted from Britannica 97

... Although aerosol particles formed from photochemical reactions are seen high in the atmosphere at pressures of 20-70 millibars, the main clouds commence at pressures exceeding 400 millibars, with the highest cloud deck expected to be formed of solid ammonia crystals. The base of the ammonia cloud de ...

The orbital history of two periodic comets encountering Saturn

... Based on the orbit given in Table 1, a set of 99 variational orbits were derived, of Gaussian distribution in each element, with standard deviations ten times the formal errors given in Table 1 and the original elements as mean values. These orbital elements, plus the original orbit, were used in a ...

Space BootCamp3.8D_AC

... Earth from the sun? A. Earth is positioned closer to the sun and Jupiter. B. Jupiter is positioned closer to the sun than Earth C. Jupiter’s orbit is shorter than Earth’s orbit around the sun. D. Earth’s orbit is longer than Jupiter’s orbit around the sun. ...

25 Other Planets

... crater, forming an ejecta blanket and a system of splashlike rays. A central peak on the crater floor can result from the rebound, and rocks in the crater rim can be overturned. Its steep walls rapidly slump and move downslope by mass movement. This process results in partial filling of the excavati ...

Document

... Earth from the sun? A. Earth is positioned closer to the sun and Jupiter. B. Jupiter is positioned closer to the sun than Earth C. Jupiter’s orbit is shorter than Earth’s orbit around the sun. D. Earth’s orbit is longer than Jupiter’s orbit around the sun. ...

ori pro 02 semifin [sfn] - SwRI-Boulder`s

... (Morbidelli & Vokrouhlický 2003). Both play a role during the LHB (Gomes et al. 2005). At present, most bodies that strike the Earth and Moon originate in the inner main belt (Gladman et al. 1997, Bottke et al. 2002), but that may not have been the case during the LHB. Two high-inclination populatio ...

Seeding Life on the Moons of the Outer Planets via Lithopanspermia

... studies included all the planets from Venus through Neptune, and particles were considered ejected from the Solar System if they went beyond 100 AU from the Sun. No collisions with the outer planets or moons were observed, due to the relatively small number of objects in the simulations. Gladman (19 ...

The Search for Planet X Transcript

... rather than a star, save for its slow motion across the heavens. Even when telescopes had come into use, their relatively poor optics meant that it was charted as a star many times before it was recognised as a planet by William Herschel in 1781. William Herschel had come to England from Hanover in ...

The Everest of Planetary Exploration: New Horizons Explores The

... Science At The Pluto System ...

A low mass for Mars from Jupiter`s early gas-driven - ICE-CSIC

... migration of their orbits on timescales of only 100,000 years (ref. 2). Hydrodynamic simulations show that these giant planets can undergo a two-stage, inward-then-outward, migration3–5. The terrestrial planets finished accreting much later6, and their characteristics, including Mars’ small mass, ar ...

American Scientist - Earth, Environmental and Planetary Sciences

... Pluto is no misfit at all. It is simply the brightest member of a vast population of objects orbiting beyond the Jovians: an entire third zone of the solar system. This region, first hypothesized in the 1940s by Gerard Kuiper, is now called the Kuiper Belt. It is littered with a diverse array of com ...

A low mass for Mars from Jupiter`s early gas

... migration of their orbits on timescales of only 100,000 years (ref. 2). Hydrodynamic simulations show that these giant planets can undergo a two-stage, inward-then-outward, migration3–5. The terrestrial planets finished accreting much later6, and their characteristics, including Mars’ small mass, ar ...

Jupiter Jupiter is the largest planet in the solar system. Its diameter is

... Jupiter is still losing the heat produced when it became a planet. Most astronomers believe that the sun, the planets, and all the other bodies in the solar system formed from a spinning cloud of gas and dust. The gravitation of the gas and dust particles packed them together into dense clouds and s ...

Pluto

... The 3 moons of Pluto… Pluto’s biggest moon is known as Charon. It was discovered in 1978 and orbits about 12,000 miles away from the planet. Recently, two other moons were discovered. They were called P1 and P2. Last May, Pluto’s other two satellites (moons) were found by a team of scientist lookin ...

The Solar System

... Only Mercury and Venus do not have a moon or (natural) satellite There are more than 100 satellites known today More are being discovered on a regular basis ...

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Naming of moons

The naming of moons has been the responsibility of the International Astronomical Union's committee for Planetary System Nomenclature since 1973. That committee is known today as the Working Group for Planetary System Nomenclature (WGPSN).Prior to its formation, the names of satellites have had varying histories. The choice of names is often determined by a satellite's discoverer; however, historically some satellites were not given names for many years after their discovery; for instance, Titan was discovered by Huygens in 1655, but was not named until 1847, almost two centuries later.Before the IAU assumed responsibility for astronomical nomenclature, only twenty-five satellites had been given names that were in wide use and are still used. Since then, names have been given to 129 additional satellites: 45 satellites of Jupiter, 43 of Saturn, 22 of Uranus, 11 of Neptune, 5 of Pluto, 1 of Eris, and 2 of Haumea. The number will continue to rise as current satellite discoveries are documented and new satellites are discovered.At the IAU General Assembly in July 2004, the WGPSN suggested it may become advisable to not name small satellites, as CCD technology makes it possible to discover satellites as small as 1 km in diameter. To date, however, names have been applied to all moons discovered, regardless of size.

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Naming of moons