here - Science A 2 Z
... •Jupiter is the fifth planet from the Sun and is the largest planet in our solar system (more than 2x as massive as all the other planets combined). •Jupiter is made up almost completely of gas and has no solid surface. •Jupiter is famous for its Great Red Spot, which is made by a storm of swirling ...
... •Jupiter is the fifth planet from the Sun and is the largest planet in our solar system (more than 2x as massive as all the other planets combined). •Jupiter is made up almost completely of gas and has no solid surface. •Jupiter is famous for its Great Red Spot, which is made by a storm of swirling ...
A Gravity Connection - Center for Space Research
... Start the activity with the following investigative questions: What if GRACE were orbiting another planet? What differences would there be in the relative surface gravity? Can you think of anything you have seen or read about that would lead you to believe the gravity is different there? (Students m ...
... Start the activity with the following investigative questions: What if GRACE were orbiting another planet? What differences would there be in the relative surface gravity? Can you think of anything you have seen or read about that would lead you to believe the gravity is different there? (Students m ...
OBSERVING OUTER PLANET SYSTEMS IN THE MID
... Executive Summary: We offer several ideas on studying the outer solar system during the coming decades. Our particular interest is in ring systems and satellite systems, though surfaces and interiors and atmospheres are briefly touched upon. The technology of tomorrow will likely make basic hardware ...
... Executive Summary: We offer several ideas on studying the outer solar system during the coming decades. Our particular interest is in ring systems and satellite systems, though surfaces and interiors and atmospheres are briefly touched upon. The technology of tomorrow will likely make basic hardware ...
The Solar System
... Neptune is the 8th planet from the sun and it is an outer planet. Neptune orbits the Sun at a distance of 30.1 AU. Temperatures at the planet's center are approximately 5,400 K (5,000 °C). Neptune revolves around the sun once every 165 years. Neptune makes a full rotation in 16 hours. The diameter o ...
... Neptune is the 8th planet from the sun and it is an outer planet. Neptune orbits the Sun at a distance of 30.1 AU. Temperatures at the planet's center are approximately 5,400 K (5,000 °C). Neptune revolves around the sun once every 165 years. Neptune makes a full rotation in 16 hours. The diameter o ...
Chapter-27-ppt from Christy
... Planets travel at different speeds in their orbits around the sun Planets closer to sun travel faster, farther ...
... Planets travel at different speeds in their orbits around the sun Planets closer to sun travel faster, farther ...
Possibilities for life elsewhere in the Solar System In our fifth
... it than the Earth on average. Therefore, that part is pulled more strongly, leading to water that is slightly raised, i.e., a tide. What is less intuitive is that there is also a tide on the opposite side of the Earth. That water is farther from the Moon than the Earth on average, so the Earth on av ...
... it than the Earth on average. Therefore, that part is pulled more strongly, leading to water that is slightly raised, i.e., a tide. What is less intuitive is that there is also a tide on the opposite side of the Earth. That water is farther from the Moon than the Earth on average, so the Earth on av ...
Astro-Lecture-Ch09 - Physics and Astronomy
... • We see atmospheres (some very cloudy, some not), not surfaces. • They are less dense than the terrestrial planets— in fact, Saturn would float in a large enough vat of water. • Jupiter’s chemistry is like the Sun: mostly hydrogen and helium. • Saturn has some more massive elements; Uranus and Nept ...
... • We see atmospheres (some very cloudy, some not), not surfaces. • They are less dense than the terrestrial planets— in fact, Saturn would float in a large enough vat of water. • Jupiter’s chemistry is like the Sun: mostly hydrogen and helium. • Saturn has some more massive elements; Uranus and Nept ...
Astro Calendar - Carnegie Science Center
... After emerging from the glare of the Sun in March, Venus will take center stage as our dazzling “morning star” this spring. Venus undergoes a 548-day cycle from a “morning star” to “evening star” and back to “morning star” again. Stargazers who wake before sunrise can view stunning Venus in the east ...
... After emerging from the glare of the Sun in March, Venus will take center stage as our dazzling “morning star” this spring. Venus undergoes a 548-day cycle from a “morning star” to “evening star” and back to “morning star” again. Stargazers who wake before sunrise can view stunning Venus in the east ...
Welcome to the Magic Valley Astronomical Society Pomerelle
... a flyby of Earth to get up enough energy to swing out to Jupiter. With three 34-foot-long solar arrays and a high-gain antenna in the middle, the spacecraft is reminiscent of a windmill. It even spins slowly as it goes through its mission. Those arrays will be the sole power source for Juno as it co ...
... a flyby of Earth to get up enough energy to swing out to Jupiter. With three 34-foot-long solar arrays and a high-gain antenna in the middle, the spacecraft is reminiscent of a windmill. It even spins slowly as it goes through its mission. Those arrays will be the sole power source for Juno as it co ...
DEFINE A PLANET YOUR ASSIGNMENT: Make your own definition
... In 1992, the object 1992 QB1 was discovered, and since then many other Trans-Neptunian Objects have been discovered, many of them quite large. Finally, in 2005 the object “Eris” was discovered, and shown to be larger than Pluto. It was immediately called the Tenth planet. Pluto was not unique any mo ...
... In 1992, the object 1992 QB1 was discovered, and since then many other Trans-Neptunian Objects have been discovered, many of them quite large. Finally, in 2005 the object “Eris” was discovered, and shown to be larger than Pluto. It was immediately called the Tenth planet. Pluto was not unique any mo ...
The Solar System By Ali Raouidah - Beyond Earth
... controversy since its discovery in 1930. On August 24, 2006, Pluto was downgraded from an official planet to a dwarf planet. No spacecraft have yet visited Pluto. However, NASA launched a mission called New Horizons that will explore both Pluto and the Kuiper Belt region. ...
... controversy since its discovery in 1930. On August 24, 2006, Pluto was downgraded from an official planet to a dwarf planet. No spacecraft have yet visited Pluto. However, NASA launched a mission called New Horizons that will explore both Pluto and the Kuiper Belt region. ...
the outer solar system
... orbit around the sun (a year in Uranian time) in about 84 Earth years. • Uranus is an ice giant. Most (80 percent or more) of the planet's mass is made up of a hot dense fluid of "icy" materials – water (H2O), methane (CH4). and ammonia (NH3) – above a small rocky core. ...
... orbit around the sun (a year in Uranian time) in about 84 Earth years. • Uranus is an ice giant. Most (80 percent or more) of the planet's mass is made up of a hot dense fluid of "icy" materials – water (H2O), methane (CH4). and ammonia (NH3) – above a small rocky core. ...
Planets - people.vcu.edu
... Now that your mission is completed, you have time to think about the many facts you learned about your solar system. You have a great tool to compare the characteristics of the planets and the things that make them distinct. You also hypothesized about the things that have to be considered when a n ...
... Now that your mission is completed, you have time to think about the many facts you learned about your solar system. You have a great tool to compare the characteristics of the planets and the things that make them distinct. You also hypothesized about the things that have to be considered when a n ...
Jovian Planets Notes
... 6) From its mass and volume, the density of Jupiter has been calculated to be 1.3 g/cm3, not much more than the 1g/cm3 density of water a) This low density indicates that any core of heavy elements (such as iron) makes up only a small fraction of Jupiter’s mass 7) Jupiter is mainly composed of the e ...
... 6) From its mass and volume, the density of Jupiter has been calculated to be 1.3 g/cm3, not much more than the 1g/cm3 density of water a) This low density indicates that any core of heavy elements (such as iron) makes up only a small fraction of Jupiter’s mass 7) Jupiter is mainly composed of the e ...
Chapter 6 - Formation of the Solar System
... A Venusian day lasts longer than a Venusian year! Rotation speed only 6.5 km/hr – a moderate walking pace ...
... A Venusian day lasts longer than a Venusian year! Rotation speed only 6.5 km/hr – a moderate walking pace ...
The Planets - ChoicesVideo.net
... January 1959 — The Russian Luna 1 satellite is the first man-made object to achieve escape velocity from the Earth on its way to the Moon. February 1961 — The Russian spacecraft Venera is the first to fly by Venus. August 1962 — Mariner 2 is launched to Venus. July 1964 — Ranger 7 is launched to the ...
... January 1959 — The Russian Luna 1 satellite is the first man-made object to achieve escape velocity from the Earth on its way to the Moon. February 1961 — The Russian spacecraft Venera is the first to fly by Venus. August 1962 — Mariner 2 is launched to Venus. July 1964 — Ranger 7 is launched to the ...
The Planetary Zoo
... to be composed of silicate rocks with a layer of water ice covering the entire surface. This image is inspired by recent discoveries on Europa of regions that look very much like pack-ice on Earth's polar seas during spring thaws. It may be that beneath Europa's surface ice there is a layer of liqui ...
... to be composed of silicate rocks with a layer of water ice covering the entire surface. This image is inspired by recent discoveries on Europa of regions that look very much like pack-ice on Earth's polar seas during spring thaws. It may be that beneath Europa's surface ice there is a layer of liqui ...
Chapter 9 - WordPress.com
... 1. Why did the Jovians form so different from the terrestrials? I think its because they were so far out in the solar system and more gases were available for their compositions. 2. What are their bulk compositions? Hydrogen and helium for Jupiter and Saturn, and Neptune and Pluto have more Methane. ...
... 1. Why did the Jovians form so different from the terrestrials? I think its because they were so far out in the solar system and more gases were available for their compositions. 2. What are their bulk compositions? Hydrogen and helium for Jupiter and Saturn, and Neptune and Pluto have more Methane. ...
The Milky Way - Department of Physics
... formed together with Saturn because material would have been blown away by particle stream from hot Saturn at time of formation. ...
... formed together with Saturn because material would have been blown away by particle stream from hot Saturn at time of formation. ...
get to know the planets!!
... It takes Earth 24 hours to rotate. Earth has one moon. Earth is a beautiful planet that has diverse life that calls it home. It is up to every human to take care of the planet to keep it beautiful and allow life to live on it for many ...
... It takes Earth 24 hours to rotate. Earth has one moon. Earth is a beautiful planet that has diverse life that calls it home. It is up to every human to take care of the planet to keep it beautiful and allow life to live on it for many ...
The atmospheres of different planets
... elements. Its chemical composition is actually very similar to that of the Sun. The vast majority parts of the atmosphere are hydrogen (90%) and helium(10%), while a lot of other composites can be found in traces. Just like Earth, Jupiter’s atmosphere can be divided into several layers concerning te ...
... elements. Its chemical composition is actually very similar to that of the Sun. The vast majority parts of the atmosphere are hydrogen (90%) and helium(10%), while a lot of other composites can be found in traces. Just like Earth, Jupiter’s atmosphere can be divided into several layers concerning te ...
Document
... Jupiter • Jupiter is by far the most massive planet in the solar system (it contains about 2/3 of the solar system mass outside the Sun). • It has the largest radius of any solar system planet, and it rotates the fastest (once every 10 hours). • It has at least 63 moons. • In many categories, Jupit ...
... Jupiter • Jupiter is by far the most massive planet in the solar system (it contains about 2/3 of the solar system mass outside the Sun). • It has the largest radius of any solar system planet, and it rotates the fastest (once every 10 hours). • It has at least 63 moons. • In many categories, Jupit ...
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.