Our Solar System

... along with the fixed stars due to Earth’s rotation. • Retrograde motion happens when Earth catches up with and passes an outer planet in its orbit. It appears that the planet makes a looping motion in the sky. ...

... b. It is tilted almost 90° and lies on its side. c. It is tilted at a 45° angle. d. Its poles are reversed. 13. How do scientists explain what may have happened to Uranus to cause its axis of rotation? _____________________________________________________________________ NEPTUNE: THE BLUE WORLD ____ ...

Review: sun spots and solar flares inner and outer planets what

... originate from the Kuiper Belt (small bodies orbiting the sun beyond Neptune)and Oort Cloud (cloud of icy debris at the furthest reaches of suns gravity in our solar system) ...

Jupiter - pridescience

... when Jupiter passes directly in front of the sun. They are made of small rocks and dust, and they are dark in color. ...

Jupiter - Copeland Science Online

... • Particles don't stay there long due to atmospheric and magnetic drag. • Galileo spacecraft found evidence that rings are continuously resupplied by dust formed by micro-meteorite impacts on the four inner moons. ...

Slide 1

... • Fragments of rock made of material similar to the material that formed the planets. – More than 50,000 asteroids have been found in our solar system. ...

december 2010 - Holt Planetarium

... band wasn't the only change on the big, gaseous planet. At the same time, Jupiter's Great Red Spot became a darker red colour. Last month, NASA’s Deep Impact EPOXI spacecraft flew past the unusual comet Hartley 2. It is unusual not only for its odd shape but also because it is experiencing a signifi ...

Planet Walk Activity

... 1) Measure the distance from the “Sun” to the #4 position of Mars, Jupiter, and Saturn. Plot and label their positions on the grid. (Each floor tile is 1 foot by 1 foot) 2) Plot and label the #2 and #6 positions of Earth on the grid, as well. 3) Draw lines from the #2 position of Earth through each ...

Jupiter

... Voyager 1 in 1979. Four rings have been observed. They are made of mostly dust. The rings are a reddish color accept the Halo Ring which is blue. ...

2.4 - Horace Mann Webmail

... small core of solid rock, ice, carbon dioxide or other compounds. • JUPITER • Jupiter has a thick atmosphere of hydrogen and helium. • It has many colorful bands. • It also has a giant red spot that is believed to be a storm that has been going on for a long time. • Galileo found four moons around J ...

Your 2nd midterm …

... Some short-period comets can come from the Oort cloud and have their orbits altered by Jupiter, but most of them are thought to belong to the Kuiper belt located just beyond the orbit of Neptune ...

The Outer Planets

... of Jupiter’s atmosphere is its Great Red Spot, a storm that is larger than Earth. Jupiter probably has a dense core of rock and iron at its center, surrounded by a thick mantle of liquid hydrogen and helium. Galileo discovered Jupiter’s four largest moons: Io, Europa, Ganymede, and Callisto. Saturn ...

Integrative Studies 410 Our Place in the Universe

... • Small icy bodies, “dirty snowballs” • Develops a “tail” as it approaches the Sun ...

jupiter_ppt

... planet from the Sun  Named after the father of Saturn  Discovered in 1781. It was the first planet discovered in 2000 years. ...

Ch. 23: “Touring Our Solar System”

... The current balance of opinion favors the latter, due to the existence of stable orbits between Mars and Jupiter. An asteroid is a small, rocky body whose diameter can range from a few hundred kilometers to less than a kilometer. Most lie between Mars and Jupiter and have orbital periods of 3-6 year ...

Physics 1305 (Solar System Astronomy) Exam 3, Sample Questions

... D) Was created by gas giant planets gravitationally flinging comets into larger orbits. 8) The planet Saturn: A) Has an atmosphere composed largely of Hydrogen and Helium. B) Has the same density as Jupiter. C) Has a more simple atmospheric circulation pattern than Jupiter. D) Probably has a core si ...

Jupiter (Jove) was the King of the Gods

... the bands were first seen by Voyager. o Cloud colors correlate with altitude: o Blue = lowest o Brown = higher o Whites = higher yet o Red = highest o Sometimes we see the lower layers through holes in the upper ones. The Red Spot o The Great Red Spot (GRS) has been seen for more than 300 years. o D ...

The affects of the Jovian planets

... • Uranus has nine rings, but they are very different from those on Saturn and Jupiter. They are made up of boulders of ice and are not reflective. Some are actually gray in their coloring ...

Lecture18

... •C) Their visible outer atmospheres assume a spherical shape even though their surfaces are irregular •D) They solidified from spherical gas clouds in their early history and retained this shape ...

Lecture18 - UCSB Physics

... • C) Their visible outer atmospheres assume a spherical shape even though their surfaces are irregular • D) They solidified from spherical gas clouds in their early history and retained this shape ...

File

... Other Objects • Meteoroids are pieces of rock moving though space - Believed to be pieces of asteroids and planets • When meteoroids collide with Earth’s atmosphere they burn up due to atmospheric friction forming meteors • When Earth passes through an area where there is a lot of excess material ( ...

The Gas Giant Planets

... Jupiter's diameter is eleven times larger than Earth's. In fact, Jupiter is only ten times smaller than the sun. This giant planet makes up about 70 percent of all the planetary matter in our solar system. ...

Jupiter is the fifth planet from the sun. It is by far the

... sun! Had Jupiter been 3 or 4 times larger, it might have become a star. Jupiter rotates very fast on its axis. It has just a 10 hour day! It takes almost 12 years to revolve around the sun. Jupiter’s most famous feature is its giant (Earthsized) red spot. This storm moves across Jupiter's surface. I ...

Planet Jupiter - Rocky View Schools

... 000K, compared to a temperature of only about 110K at its surface. Four spacecraft have visited Jupiter, two Pioneer fly-bys in 1974 and two Voyager probes in 1979. The probes obtained high-resolution images of Jupiter’s gaseous surface and gave scientists valuable information about the planet and i ...

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Comet Shoemaker–Levy 9

Comet Shoemaker–Levy 9 (formally designated D/1993 F2) was a comet that broke apart and collided with Jupiter in July 1994, providing the first direct observation of an extraterrestrial collision of Solar System objects. This generated a large amount of coverage in the popular media, and the comet was closely observed by astronomers worldwide. The collision provided new information about Jupiter and highlighted its role in reducing space debris in the inner Solar System.The comet was discovered by astronomers Carolyn and Eugene M. Shoemaker and David Levy. Shoemaker–Levy 9, at the time captured by and orbiting Jupiter, was located on the night of March 24, 1993, in a photograph taken with the 40 cm (16 in) Schmidt telescope at the Palomar Observatory in California. It was the first comet observed to be orbiting a planet, and had probably been captured by the planet around 20 – 30 years earlier.Calculations showed that its unusual fragmented form was due to a previous closer approach to Jupiter in July 1992. At that time, the orbit of Shoemaker–Levy 9 passed within Jupiter's Roche limit, and Jupiter's tidal forces had acted to pull apart the comet. The comet was later observed as a series of fragments ranging up to 2 km (1.2 mi) in diameter. These fragments collided with Jupiter's southern hemisphere between July 16 and July 22, 1994, at a speed of approximately 60 km/s (37 mi/s) or 216,000 km/h (134,000 mph). The prominent scars from the impacts were more easily visible than the Great Red Spot and persisted for many months.

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Comet Shoemaker–Levy 9