Saturn
... • Second largest planet – with rings • Atmosphere composition similar to Jupiter, but less metallic H2 • Density ~ 0.69 g/cc (could float on water!) • Twice as far from the Sun as Jupiter • Surface Temp = 95 K • Deep clouds, strong winds (1700 Km/hr) • Intrinsic magnetic field is 1000 x Earth’s (but ...
... • Second largest planet – with rings • Atmosphere composition similar to Jupiter, but less metallic H2 • Density ~ 0.69 g/cc (could float on water!) • Twice as far from the Sun as Jupiter • Surface Temp = 95 K • Deep clouds, strong winds (1700 Km/hr) • Intrinsic magnetic field is 1000 x Earth’s (but ...
Jovian Planet Systems
... How does Io get heated by Jupiter? A. Auroras B. Infrared light C. Jupiter pulls harder on one side than the other D. Volcanoes ...
... How does Io get heated by Jupiter? A. Auroras B. Infrared light C. Jupiter pulls harder on one side than the other D. Volcanoes ...
INSTITUTO EDUCACIONAL SÃO JOÃO DA ESCÓCIA
... The Sun, eight planets and their moons, an asteroid belt and many comets and meteors are in our Solar System. The Sun is in the center.It is a large, bright object in the Solar System. Around the Sun there are planets,moons,dwarf planets, asteroids, comets, meteoroids, rocks, interplanetary dust and ...
... The Sun, eight planets and their moons, an asteroid belt and many comets and meteors are in our Solar System. The Sun is in the center.It is a large, bright object in the Solar System. Around the Sun there are planets,moons,dwarf planets, asteroids, comets, meteoroids, rocks, interplanetary dust and ...
PlanetTour
... 4) Did not detect the three cloud layers (Layers are: cloud tops of ammonia, then ammonium hydrosulfide, then water vapor) 5) Water measurements differ About same as O indicated on sun 1/2 indicated by Voyager 1/10 expected after comet Shoemaker Levy 9 6) Winds blow stronger deeper (not at the cloud ...
... 4) Did not detect the three cloud layers (Layers are: cloud tops of ammonia, then ammonium hydrosulfide, then water vapor) 5) Water measurements differ About same as O indicated on sun 1/2 indicated by Voyager 1/10 expected after comet Shoemaker Levy 9 6) Winds blow stronger deeper (not at the cloud ...
Planetary Rings
... When we have actually seen that great arch swung over the equator of the planet without any visible connection, we cannot bring out minds to rest. […] We must explain its motion on the principles of mechanics. ...
... When we have actually seen that great arch swung over the equator of the planet without any visible connection, we cannot bring out minds to rest. […] We must explain its motion on the principles of mechanics. ...
Planets - AState.edu
... Included: As students come into the classroom. I will have a model of the solar system on a table where all students can see the model. “Can anyone tell me what is sitting on the table? That’s right it is the solar system. What is our solar system mainly made of? Planets, the asteroid belt, stars, s ...
... Included: As students come into the classroom. I will have a model of the solar system on a table where all students can see the model. “Can anyone tell me what is sitting on the table? That’s right it is the solar system. What is our solar system mainly made of? Planets, the asteroid belt, stars, s ...
Solar System - Joy Senior Secondary School
... Ques10- How is the earth a unique planet in the solar system? Ans10Earth is a unique planet in the solar system because:1. Location- The best location , with reference to the sun . 2. Favourable environmental condition for the survival of various forms of life. 3.Adequate water- The presence of ade ...
... Ques10- How is the earth a unique planet in the solar system? Ans10Earth is a unique planet in the solar system because:1. Location- The best location , with reference to the sun . 2. Favourable environmental condition for the survival of various forms of life. 3.Adequate water- The presence of ade ...
Solar System Formation Notes Planets 1. There are two types of
... 3. Accretion: the blobs of liquid collide and stick together. These collisions are the beginning of planet building. 4. Planetesimals: These are the building blocks of planets. The larger blobs of liquid attract more of the smaller ones due to their higher gravitational pull. The planetesimals colli ...
... 3. Accretion: the blobs of liquid collide and stick together. These collisions are the beginning of planet building. 4. Planetesimals: These are the building blocks of planets. The larger blobs of liquid attract more of the smaller ones due to their higher gravitational pull. The planetesimals colli ...
morby-DDPW03
... mechanism…) is still evolving (Nice 2005, 2007, 20xx….) •The Nice 2007 model is quite appealing because it links gas-disk-driven dynamics with planetesimal-driven dynamics. It also explains why we do not have a hot Jupiter here •In the Nice 20xx model, even the delay becomes generic •There is no tra ...
... mechanism…) is still evolving (Nice 2005, 2007, 20xx….) •The Nice 2007 model is quite appealing because it links gas-disk-driven dynamics with planetesimal-driven dynamics. It also explains why we do not have a hot Jupiter here •In the Nice 20xx model, even the delay becomes generic •There is no tra ...
Муниципальное образовательное учреждение Ключанская
... brightest object in Earth’s sky, after the Sun, the Moon, and Venus. The Romans named it for their god, Jupiter, because of its prominence in the sky. Jupiter is a ball of gas and has no solid surface. ...
... brightest object in Earth’s sky, after the Sun, the Moon, and Venus. The Romans named it for their god, Jupiter, because of its prominence in the sky. Jupiter is a ball of gas and has no solid surface. ...
Click www.ondix.com to visit our student-to
... Centauri, a red dwarf star that is about 4.3 light years away. The whole solar system, together with the local stars visible on a clear night, orbits the center of our home galaxy, a spiral disk of two hundred billion stars we call the Milky Way. As mentioned before the Sun contains more than ninety ...
... Centauri, a red dwarf star that is about 4.3 light years away. The whole solar system, together with the local stars visible on a clear night, orbits the center of our home galaxy, a spiral disk of two hundred billion stars we call the Milky Way. As mentioned before the Sun contains more than ninety ...
Weather on other planets - Crazy-Charli-girl
... At the other end of the planet the southern polar cap melts, giving CO2 back to the atmosphere. This process reverses half a year later at the summer solstice. But Mars is 10% closer to the Sun in southern summer than it is in northern summer. At the time of the winter solstice the northern polar c ...
... At the other end of the planet the southern polar cap melts, giving CO2 back to the atmosphere. This process reverses half a year later at the summer solstice. But Mars is 10% closer to the Sun in southern summer than it is in northern summer. At the time of the winter solstice the northern polar c ...
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" ...
... Io (shown here): active volcanoes all over Europa: possible subsurface ocean Ganymede: largest moon in solar system Callisto: a large, cratered "ice ball" ...
Our Solar System
... Before we begin, you need to understand what these words are. Write the above title on a clean page in your journal, then write down these words and their definitions: Planets – have more circular orbits around the sun Satellite – 1. a body that orbits a planet 2. An object launched to orbit Earth ...
... Before we begin, you need to understand what these words are. Write the above title on a clean page in your journal, then write down these words and their definitions: Planets – have more circular orbits around the sun Satellite – 1. a body that orbits a planet 2. An object launched to orbit Earth ...
Wednesday, October 24, 2007
... • October 22: Venus (chapter 7), Jupiter, jovian planets, Galilean satellites of Jupiter (chapter 8) • Today’s topics, above ...
... • October 22: Venus (chapter 7), Jupiter, jovian planets, Galilean satellites of Jupiter (chapter 8) • Today’s topics, above ...
Jupiter and Saturn - University of Surrey
... Jupiter. However it actually emits 25% more energy per unit mass than Jupiter This additional energy comes from He condensation in the upper atmosphere – where friction is produced by the falling ‘He rain’ droplets in the atmosphere Saturn cools faster than Jupiter and so, after ~2.6 billion years, ...
... Jupiter. However it actually emits 25% more energy per unit mass than Jupiter This additional energy comes from He condensation in the upper atmosphere – where friction is produced by the falling ‘He rain’ droplets in the atmosphere Saturn cools faster than Jupiter and so, after ~2.6 billion years, ...
Solar System
... It is about the same size as Earth, but Venus turns in the opposite direction. Like Mercury, Venus is very hot and dry. Unlike Mercury, Venus has an atmosphere made of thick, swirling clouds. ...
... It is about the same size as Earth, but Venus turns in the opposite direction. Like Mercury, Venus is very hot and dry. Unlike Mercury, Venus has an atmosphere made of thick, swirling clouds. ...
The “Not-Quite-Planet” Pluto …and Friends!
... Eris: Was the first known Kuiper Belt Object Larger than Pluto! ...
... Eris: Was the first known Kuiper Belt Object Larger than Pluto! ...
solar system - New Concept
... Jupiter has an oblateness of about 6%, which means that the equatorial diameter is 6% greater than the polar diameter. ...
... Jupiter has an oblateness of about 6%, which means that the equatorial diameter is 6% greater than the polar diameter. ...
THE FRIGID REALM
... No ammonia is observed, unlike the situation for Jupiter & Saturn. The few clouds or spots observed are located deep in the atmosphere. Voyager 2 discovered that the Urainian magnetic field (~100X Earth’s in strength) is offset from the center of the planet and misaligned with the rotation axis. No ...
... No ammonia is observed, unlike the situation for Jupiter & Saturn. The few clouds or spots observed are located deep in the atmosphere. Voyager 2 discovered that the Urainian magnetic field (~100X Earth’s in strength) is offset from the center of the planet and misaligned with the rotation axis. No ...
DTU_9e_ch08 - University of San Diego Home Pages
... Four large satellites orbit Jupiter. The two inner Galilean moons, Io and Europa, are roughly the same size as our Moon. The two outer moons, Ganymede and Callisto, are approximately the size of Mercury. Io is covered with a colorful layer of sulfur compounds deposited by frequent explosive eruption ...
... Four large satellites orbit Jupiter. The two inner Galilean moons, Io and Europa, are roughly the same size as our Moon. The two outer moons, Ganymede and Callisto, are approximately the size of Mercury. Io is covered with a colorful layer of sulfur compounds deposited by frequent explosive eruption ...
ASTR100 Class 01
... What is Pluto like? Its largest moon Charon is nearly as large as Pluto itself (probably made by a major impact). Pluto is very cold (40 K). Pluto has a thin nitrogen atmosphere that refreezes onto the surface as Pluto’s orbit takes it farther from the Sun. ...
... What is Pluto like? Its largest moon Charon is nearly as large as Pluto itself (probably made by a major impact). Pluto is very cold (40 K). Pluto has a thin nitrogen atmosphere that refreezes onto the surface as Pluto’s orbit takes it farther from the Sun. ...
Stellarium Activity #4 — Phases of Planets
... Between each of the following exercises, you may wish to return to “now” (press “8”), to restore the proper speed of time (press “K”), or to reset other settings. (6 pts.) 1A. Phase of Venus • Turn off the atmosphere, ground, and fog. Choose “Equatorial” mode. • Use the “find” button to find Venus, ...
... Between each of the following exercises, you may wish to return to “now” (press “8”), to restore the proper speed of time (press “K”), or to reset other settings. (6 pts.) 1A. Phase of Venus • Turn off the atmosphere, ground, and fog. Choose “Equatorial” mode. • Use the “find” button to find Venus, ...
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.