Lecture 3 - UIC Home

... mathematician and physicist Christiaan Huygens. It was launched on October 15, 1997 and entered into orbit around Saturn on July 1, ...

Vagabond MOONS - UMd Astronomy

... work has turned up asteroids that are not currently satellites of the terrestrial planets — but which have been in the past and will be again in the future. Most of these are natural objects, asteroids that wandered into the inner solar system and were temporarily captured. At least one, however, is ...

STUDY GUIDE FOR CHAPTER 1

... c. If you have a small moon then ring particles that are close to it and inside its orbit will catch up to it and pass it. The moon will exert an attractive force on these ring particles that will slow them down as they pass by. This gives them less energy and so they move into a lower orbit. d. If ...

Bianca

... Click on a letter and it will show you something about space. ...

Ch 27 Study Guide

... ____ 22. Kepler’s first law states that planets orbit the sun in paths called a. ellipses. c. epicycles. b. circles. d. periods. ____ 23. Young Earth formed a core, mantle, and crust in a process called a. layering. c. dispersion. b. settling. d. differentiation. ____ 24. Early fresh water oceans b ...

planets finalized - Hewlett

... around a fixed sun. Thus Mercury, Venus, the Earth, Mars, Jupiter and Saturn all revolve around the sun ...

pdf format

... – probably formed at the same time as the planet – probably formed by processes similar to those that formed the planets • Object in irregular orbits – probably formed far away and were captured later ...

The Earth and Other Planets

... Explore First, students will be given a poster and small materials such as a quarter, grain of salt, pencil eraser, etc. As a group, students will predict which planet each object is similar to in size. Each group will share their predictions with the class. Then the class will have an introduction ...

Rings and Inner Moons of Jupiter

... 1892 considering its orbit is half the size of that of Io and its size is only 270 by 166 by 150 km. In this Voyager 1 image, impact craters can be glimpsed. Its reddish colour is attributed to sulphur ejected from Io’s volcanoes. Tidal drag has made Amalthea’s rotation synchronous with its orbit pe ...

Origin of Our Solar System 2 Theories Sun formed first then planets

... Average temp of -176°C At least 20 moons Numerous rings of material Color bands like Jupiter but less pronounced Uranus 3rd largest Has smaller band of rings Discovered in 1781 Unusual rotation, 180°, rolls like a ball Green color indicates methane in atmosphere Neptune 8 moo ...

Galileo & the Telescope— Sept 20

... stars, but especially about the four planets flying around the star of Jupiter at unequal intervals and periods with wonderful swiftness; which unknown by anyone until this day, the first author detected recently and decided to name Midicean Stars. Venice ...

Solar System Review inner and outer 2015

... beyond the frost line (3.5 AU) –Hydrogen compounds formed the cores of these planets ...

Lecture 3

... mathematician and physicist Christiaan Huygens. It was launched on October 15, 1997 and entered into orbit around Saturn on July 1, ...

Announcements THE OUTER PLANETS

... !  The largest of these is only 250 km across ...

Our Solar System Mercury, the Fastest Planet

... • Small, cold dwarf planet (It is not a planet anymore. Scientist changed the classification of planets. Pluto did not change.) • Takes 248 years to orbit Sun • 2/3’s the diameter of Earth’s Moon • Rocky core surrounded by water ice • Pluto and its moon Charon share the same orbit ...

Contact: Sharon Worthy

... more massive than Earth, the planet is famous for its Great Red Spot, which is so large that two Earths would fit in it. The spot is thought to be a high-pressure weather system. Befitting such a behemoth, astronomers so far have discovered 61 celestial bodies orbiting Jupiter, including four large ...

Asteroids and comets

... the Sun. Be sure to include the comet's orbital path and the direction towards the Sun in your sketch. 5. Explain why astronomers infer two separate reservoirs for comets and briefly describe the shape and size (in terms of distance from the Sun) of each reservoir. 6. Explain what the three-fold div ...

Jovian Planets - Valhalla High School

... Triton is large enough and far enough from the others to retain an atmosphere Triton has some craters with dark steaks extending from them – at least one of which originates from a geyser caught in eruption by the passing Voyager II The material in the geyser is thought to be a mixture of nitrogen, ...

Tides on Earth

... which revolve around Mars relatively quickly. ...

Picture Book of the Planets

... • mostly between Mars and Jupiter • 7000+ known, some greater than 200 km diameter • total mass less than our Moon • some planet moons may be captured asteroids • Near Earth Asteroids could hit Earth ...

Lecture3

... • Since we know the relation between orbital energy, distance, and velocity we can find a general formula which relates them all – the Vis Viva equation ...

Our solar system

... is larger. Saturn has seven thin, flat rings around it. Saturn's diameter at its equator is 74,600 miles which is almost ten times that of Earth. The planet can be seen from Earth but its rings cannot. Saturn's rings are made up of billions of pieces of rocks and dust. The atmosphere of Saturn compr ...

Moon Match

... The Solar System contains 1 star (the Sun), 8 planets (Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune), 10’s of satellites that orbit the planets, dwarf planets (Pluto, Ceres, and Eris), 1000’s of asteroids that orbit the Sun, and billions of comets. For our Solar System the planets o ...

File

... d. about the same on the day and night sides of the planet. e. none of the above The surface of Venus has been studied a. using radar maps made from Earth. b. using radar maps made from satellites orbiting Venus. c. using spacecraft that have landed on the surface of Venus. d. all of the above e. on ...

Jupiter Fact Sheet - UNT College of Arts and Sciences

... • Rapid rotation rate causes planet's atmosphere to – bulge at the equator and – be flattened at the poles. • Rotation rate is greater at the equator than at the poles (differential rotation). • Jupiter's rapid rotation deflects rising and sinking currents of gases (Coriolis effect) into strong zona ...

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Exploration of Jupiter

The exploration of Jupiter has been conducted via close observations by automated spacecraft. It began with the arrival of Pioneer 10 into the Jovian system in 1973, and, as of 2014, has continued with seven further spacecraft missions. All of these missions were undertaken by the National Aeronautics and Space Administration (NASA), and all but one have been flybys that take detailed observations without the probe landing or entering orbit. These probes make Jupiter the most visited of the Solar System's outer planets as all missions to the outer Solar System have used Jupiter flybys to reduce fuel requirements and travel time. Plans for more missions to the Jovian system are under development, none of which are scheduled to arrive at the planet before 2016. Sending a craft to Jupiter entails many technical difficulties, especially due to the probes' large fuel requirements and the effects of the planet's harsh radiation environment.The first spacecraft to visit Jupiter was Pioneer 10 in 1973, followed a year later by Pioneer 11. Aside from taking the first close-up pictures of the planet, the probes discovered its magnetosphere and its largely fluid interior. The Voyager 1 and Voyager 2 probes visited the planet in 1979, and studied its moons and the ring system, discovering the volcanic activity of Io and the presence of water ice on the surface of Europa. Ulysses further studied Jupiter's magnetosphere in 1992 and then again in 2000. The Cassini probe approached the planet in 2000 and took very detailed images of its atmosphere. The New Horizons spacecraft passed by Jupiter in 2007 and made improved measurements of its and its satellites' parameters.The Galileo spacecraft is the only one to have entered orbit around Jupiter, arriving in 1995 and studying the planet until 2003. During this period Galileo gathered a large amount of information about the Jovian system, making close approaches to all of the four large Galilean moons and finding evidence for thin atmospheres on three of them, as well as the possibility of liquid water beneath their surfaces. It also discovered a magnetic field around Ganymede. As it approached Jupiter, it also witnessed the impact of Comet Shoemaker–Levy 9. In December 1995, it sent an atmospheric probe into the Jovian atmosphere, so far the only craft to do so.Future probes planned by NASA include the Juno spacecraft, launched in 2011, which will enter a polar orbit around Jupiter to determine whether it has a rocky core. The European Space Agency selected the L1-class JUICE mission in 2012 as part of its Cosmic Vision programme to explore three of Jupiter's Galilean moons, with a possible Ganymede lander provided by Roscosmos. JUICE is proposed to be launched in 2022. Some NASA administrators have even speculated as to the possibility of human exploration of Jupiter, but such missions are not considered feasible with current technology; such as radiation protection.

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Exploration of Jupiter