Jupiter is surrounded by an enormous magnetic field called the magnetosphere, which has a million times the volume of Earth's magnetosphere. Jupiter's Magnetosphere January 29, 2001 This image taken on Jan. 4 and 5, 2001, by the Ion and Neutral Camera (INCA) which is part of the Magnetospheric Imaging Instrument (MIMI) on NASA's Cassini spacecraft, makes the huge magnetosphere surrounding Jupiter visible in a way no instrument on any previous spacecraft has been able to do. It deflects most of the solar material sweeping towards us from our star at 1 million miles per hour or more. Saturn. The magnetosphere extends so far past Jupiter it sweeps the solar wind as far as the orbit of Saturn. Magnetospheres. It comes from volcanic gases inside and the plasma pressure is …

These belts are similar to the Earth's Van Allen belts, but are many millions of times more intense. Saturn’s magnetosphere is the second largest of any planet in the Solar System after Jupiter. Other planets in our solar system have magnetospheres, but Earth has the strongest one of all the rocky planets: Earth's magnetosphere is a vast, comet-shaped bubble, which has played a crucial role in our planet's habitability. On Jupiter, the electrons producing auroras come from the magnetosphere, a layer of plasma and magnetic field surrounding the planet. Jupiter has the largest magnetic field and a thick atmosphere. The planet's magnetic field is represented by soft purple lines that connect its north and south magnetic poles. The magnetosphere extends so far past Jupiter it sweeps the solar wind as far as the orbit of Saturn. Ulysses further studied Jupiter's magnetosphere in 1992 and then again in 2000. The Galileo spacecraft was the first to have entered orbit around Jupiter, arriving in 1995 … Jupiter. Like Earth's magnetosphere, many of the charged particles trapped in Jupiter's magnetosphere come from the solar wind; however, Jupiter has an extra source of particles that other planets do not have. NASA's Jupiter-bound Juno spacecraft has entered the planet's magnetosphere, where the movement of particles in space is controlled by what's going on inside Jupiter. Jupiter's magnetosphere extends towards the Sun about 7 million kilometres where it encounters the solar wind, which creates a bow wave. Jupiter's magnetosphere - a basic view. The magnetosphere of Jupiter is the cavity created in the solar wind by the planet's magnetic field. Jupiter is shown with several important components of its magnetosphere in this artist's representation. Enveloping our planet and protecting us from the fury of the Sun is a giant bubble of magnetism called the magnetosphere. Jupiter’s magnetosphere is the largest structure in the solar system.

The magnetosphere of Jupiter is the cavity created in the solar wind by the planet's magnetic field.Extending up to seven million kilometers in the Sun's direction and almost to the orbit of Saturn in the opposite direction, Jupiter's magnetosphereSaturn in the opposite direction, Jupiter's magnetosphere This is the largest, most dynamic and most energy-intensive process. Jupiter’s magnetosphere. The diameter of its tail is 3,000 radii and if it were possible to see it would be four times larger than the moon. Jupiter's Colorful Auroras Carry Strange Footprint Of Its Moons It was the first satellite dedicated to observing the magnetosphere of the Earth and producing global images of plasma in the inner magnetosphere . The stronger the magnetic field, the larger the magnetosphere.Some 20,000 times stronger than Earth's magnetic field, Jupiter's magnetic field creates a magnetosphere so large it begins to avert the solar wind almost 3 million kilometers before it reaches Jupiter. But it wasn't until the Space Age, when we sent the first probes to other planets, that we found clear evidence of their magnetic fields (though there were hints of a magnetic field for Jupiter in the 1950s, due to observations from radio telescopes).

The shape of the Earth's magnetosphere is the direct result of being blasted by solar wind.
A magnetosphere is the region around a planet dominated by the planet's magnetic field. Earth's magnetic field creates a 'bubble' around Earth that helps protect our planet from some of the more harmful effects of energetic particles streaming out from the sun in the solar wind. The New Horizons spacecraft passed by Jupiter in 2007 and made improved measurements of its and its satellites' parameters.