Outer planets
... Largest planet in the Solar System Atmosphere is mostly hydrogen and helium At least 63 moons In 1610 Galileo- 1st to see 4 moons of Jupiter using a telescope. ...
... Largest planet in the Solar System Atmosphere is mostly hydrogen and helium At least 63 moons In 1610 Galileo- 1st to see 4 moons of Jupiter using a telescope. ...
Chapter 7 Solar System study guide
... Tend to be warmer than gas giants Some atmosphere Smaller compared to G.G. Mars is most like the Earth Mars has polar ice caps Earth supports life Mercury/Venus no moons ...
... Tend to be warmer than gas giants Some atmosphere Smaller compared to G.G. Mars is most like the Earth Mars has polar ice caps Earth supports life Mercury/Venus no moons ...
The Inner Planets of Our Solar System
... Europa has a layer of ice Ganymede largest natural satellite in the Solar System and has a salt water ocean and oxygen in it’s atmosphere. Larger than Mercury. ...
... Europa has a layer of ice Ganymede largest natural satellite in the Solar System and has a salt water ocean and oxygen in it’s atmosphere. Larger than Mercury. ...
Moons of Jovian Planets
... • Ganymede is differentiated but Callisto is not •Ganymede shows evidence of ancient plate tectonics • Neither show any obvious sign of recent geologic activity •Unknown why two such similar bodies evolved differently! ...
... • Ganymede is differentiated but Callisto is not •Ganymede shows evidence of ancient plate tectonics • Neither show any obvious sign of recent geologic activity •Unknown why two such similar bodies evolved differently! ...
webquest – solar system - Teach
... c) Which are the four inner planets and which are the four outer planets? ...
... c) Which are the four inner planets and which are the four outer planets? ...
ppt
... • At greater depths the hydrogen starts resembling a liquid • At 10,000 kilometers below Jupiter's cloud top liquid hydrogen reaches a pressure of 1,000,000 bar with a temperature of 6,000° K. • At this state hydrogen changes into a phase of liquid metallic hydrogen. In this state, the hydrogen atom ...
... • At greater depths the hydrogen starts resembling a liquid • At 10,000 kilometers below Jupiter's cloud top liquid hydrogen reaches a pressure of 1,000,000 bar with a temperature of 6,000° K. • At this state hydrogen changes into a phase of liquid metallic hydrogen. In this state, the hydrogen atom ...
Bez tytułu slajdu
... and remained theory until the 1992 detection of a 150-mile wide body, called 1992QB1 at the distance of the suspected belt. There are more than 800 known trans-Neptunian (or Kuiper Belt Objects, KBOs). It is surprising that one-third of the population are engaged into the 3:2 resonance with the Nept ...
... and remained theory until the 1992 detection of a 150-mile wide body, called 1992QB1 at the distance of the suspected belt. There are more than 800 known trans-Neptunian (or Kuiper Belt Objects, KBOs). It is surprising that one-third of the population are engaged into the 3:2 resonance with the Nept ...
MATCHING
... ______Mars_________1. Is a red color due to the iron oxide (rust) _______Jupiter______ 2. Has the Great Red Spot _______Mercury_____ 3. Smallest Planet in the solar system ________Neptune____ 4. Has the Great Dark Spot _______Mars_______ 5. Has largest volcano in solar system, Olympus Mons _______Ur ...
... ______Mars_________1. Is a red color due to the iron oxide (rust) _______Jupiter______ 2. Has the Great Red Spot _______Mercury_____ 3. Smallest Planet in the solar system ________Neptune____ 4. Has the Great Dark Spot _______Mars_______ 5. Has largest volcano in solar system, Olympus Mons _______Ur ...
The Galilean Moons of Jupiter
... • Ganymede is differentiated but Callisto is not •Ganymede shows evidence of ancient plate tectonics • Neither show any obvious sign of recent geologic activity •Unknown why two such similar bodies evolved differently! ...
... • Ganymede is differentiated but Callisto is not •Ganymede shows evidence of ancient plate tectonics • Neither show any obvious sign of recent geologic activity •Unknown why two such similar bodies evolved differently! ...
Astro 101-001 Summer 2013 Assigmnent #2 Due: Monday 6/24
... 10. Alternating zones of rising and sinking gas in Jupiter's atmosphere: (a) create light and dark bands; (b) cause Jupiter's magnetic field to ripple; (c) produced the ring system discovered by Voyager; (d) generate magnetic fields; (e) circle the planet from pole to pole. ...
... 10. Alternating zones of rising and sinking gas in Jupiter's atmosphere: (a) create light and dark bands; (b) cause Jupiter's magnetic field to ripple; (c) produced the ring system discovered by Voyager; (d) generate magnetic fields; (e) circle the planet from pole to pole. ...
1. Which of the following statements does not describe Jupiter? A. It
... 4. A remarkable discovery about the rings of Saturn made by the Voyager probes was that the rings A. are circular. B. are made of tiny particles. C. orbit around the planet. D. are very thin. E. consist of hundreds of separate rings. 5. What are the two most abundant gases in the atmosphere of Satur ...
... 4. A remarkable discovery about the rings of Saturn made by the Voyager probes was that the rings A. are circular. B. are made of tiny particles. C. orbit around the planet. D. are very thin. E. consist of hundreds of separate rings. 5. What are the two most abundant gases in the atmosphere of Satur ...
The 4 Galilean Satelites of Jupiter!!!!
... largest in our solar system with a diameter of 5,262 km (3,280 miles). If Ganymede orbited the Sun instead of Jupiter it could be classified as a planet. Like Callisto, Ganymede is most likely composed of a rocky core with a water/ice mantle and a crust of rock and ice. Its low density of 1.94 gm/cm ...
... largest in our solar system with a diameter of 5,262 km (3,280 miles). If Ganymede orbited the Sun instead of Jupiter it could be classified as a planet. Like Callisto, Ganymede is most likely composed of a rocky core with a water/ice mantle and a crust of rock and ice. Its low density of 1.94 gm/cm ...
Science 9: Space Practice Multiple Choice 1. Which of the following
... 1. Which of the following best describes the term “constellation” a. A group of stars that travel through space together b. A group of stars that form a shape or pattern c. A group of stars that is seen from the same part of the sky d. A group of stars that are located near each other in space 2. Ch ...
... 1. Which of the following best describes the term “constellation” a. A group of stars that travel through space together b. A group of stars that form a shape or pattern c. A group of stars that is seen from the same part of the sky d. A group of stars that are located near each other in space 2. Ch ...
Europa`s structure
... surfaces get colder and older. Ganymede is the largest moon in the solar system and also generates it's own magnetic field, just like the Earth! ...
... surfaces get colder and older. Ganymede is the largest moon in the solar system and also generates it's own magnetic field, just like the Earth! ...
2.4 - Horace Mann Webmail
... • We think that each of the outer planets has a 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 fo ...
... • We think that each of the outer planets has a 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 fo ...
Day-34
... Planetary diameters are found by observing how long it takes for a planet to pass over a ...
... Planetary diameters are found by observing how long it takes for a planet to pass over a ...
The Solar System - Academic Resources at Missouri Western
... Interesting features: Great Red Spot 25,000 mi dia. A Jovian storm ...
... Interesting features: Great Red Spot 25,000 mi dia. A Jovian storm ...
Outer Planets Wrap Up
... __________________ 9. used to have a great dark spot, but it has disappeared __________________ 10. may be shrinking __________________ 11. has the moons named Ariel and Titania __________________ 12. has the largest solar system moon (Ganymede) What are 3 things that the four gas giants have in com ...
... __________________ 9. used to have a great dark spot, but it has disappeared __________________ 10. may be shrinking __________________ 11. has the moons named Ariel and Titania __________________ 12. has the largest solar system moon (Ganymede) What are 3 things that the four gas giants have in com ...
PHYS 178 – Assignment 5 Sketchy Answers
... The craters are less well-defined on Jupiter’s moons (e.g. Callisto) because the ice is warmer, and it slumps/flows over long periods of time. The ice on the surfaces of (non-tidally heated) moons around Saturn is cold and more rock-like. The craters on Rhea, for example, resemble those on the Moon ...
... The craters are less well-defined on Jupiter’s moons (e.g. Callisto) because the ice is warmer, and it slumps/flows over long periods of time. The ice on the surfaces of (non-tidally heated) moons around Saturn is cold and more rock-like. The craters on Rhea, for example, resemble those on the Moon ...
Jupiter is the fifth planet from the sun. It is by far the
... the photos here of an active volcano erupting on the moon, Io. Scientists had long thought active volcanoes existed elsewhere in our solar system, but were totally amazed when Voyager sent these images back to earth. The chances of seeing an actual eruption happening were very slim. Pictured at the ...
... the photos here of an active volcano erupting on the moon, Io. Scientists had long thought active volcanoes existed elsewhere in our solar system, but were totally amazed when Voyager sent these images back to earth. The chances of seeing an actual eruption happening were very slim. Pictured at the ...
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.