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Voyager 2 Trajectory through the Solar System

Visualization centered on the Voyager 2 trajectory through the solar system.

A slightly sped-up version of the Voyager 2 visualization above, reducing the time for the Voyagers to cross the asteroid belt.

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Voyager Journey, with Animations

• Post published: August 31, 2020
• Post category: Space Probes
• Reading time: 3 mins read

This is the third article in the Voyager series. In this article, we will cover the launch trajectories and the future of both probes.

So, let’s cut down the text and directly see the trajectories via animated GIFs.

The trajectories that enabled the Voyager spacecraft to visit the outer planets and achieve velocity to escape the Solar System

Future of the probes

Voyager 2 is not headed toward any particular star, although in roughly 42,000 years it will pass 1.7 light-years from the star Ross 248. And if undisturbed for 296,000 years, Voyager 2 should pass by the star Sirius at a distance of 4.3 light-years. Voyager 2 is expected to keep transmitting weak radio messages until at least the mid-2020s, more than 48 years after it was launched. As the power from the RTG (radioisotope thermoelectric generators) slowly reduces, various items of equipment have been turned off. The first science equipment turned off on Voyager 2 was the PPS in 1991, which saved 1.2 watts. Voyager 1 is expected to reach the theorized Oort cloud in about 300 years and take about 30,000 years to pass through it. Though it is not heading towards any particular star, in about 40,000 years, it will pass within 1.6 light-years of the star Gliese 445, which is at present in the constellation Camelopardalis. That star is generally moving towards the Solar System at about 119 km/s (430,000 km/h; 270,000 mph). NASA says that “The Voyagers are destined—perhaps eternally—to wander the Milky Way.” In 300,000 years it will pass within less than 1 light-year of the M3V star TYC 3135-52-1.

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Voyager 2 trajectory (GIF format)

Voyager 2 trajectory movie (mpg format), interactive 3-dimensional wire-frame model of voyager 1 and 2 trajectories (java applet), voyager 1 and 2 trajectory data files, for more information contact john richardson at mit (e-mail: [email protected])..

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Voyager 2 image of neptune.

This picture of Neptune was produced from the last whole planet images taken through the green and orange filters on the Voyager 2 narrow angle camera. The images were taken at a range of 4.4 million miles from the planet, 4 days and 20 hours before closest approach. The picture shows the Great Dark Spot and its companion bright smudge; on the west limb the fast moving bright feature called Scooter and the little dark spot are visible. These clouds were seen to persist for as long as Voyager’s cameras could resolve them. North of these, a bright cloud band similar to the south polar streak may be seen.

Image Credit: NASA/JPL

Category : Photos of Neptune by Voyager 2

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• Photos of Neptune system by Voyager 2

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Images voyager took of neptune.

In the summer of 1989, NASA’s Voyager 2 became the first spacecraft to observe the planet Neptune, its final planetary target. Passing about 4,950 kilometers (3,000 miles) above Neptune’s north pole, Voyager 2 made its closest approach to any planet since leaving Earth 12 years ago. Five hours later, Voyager 2 passed about 40,000 kilometers (25,000 miles) from Neptune’s largest moon, Triton, the last solid body the spacecraft will have an opportunity to study.

For a fact sheet on the Neptune science summary, click here .

Voyager image of Neptune.

Neptune’s rings., neptune’s great dark spot., neptune’s moon triton., parting view of neptune and moon triton., false-color image of neptune..

Neptune’s Great Dark Spot, accompanied by white high-altitude clouds.

Cloud systems in Neptune’s southern hemisphere.

Great Dark Spot. This storm system rotates counterclockwise.

High-altitude cloud streaks in Neptune’s atmosphere.

Two views of satellite 1989N2. Dark, irregularly shaped moon was discovered by Voyager 2.

Satellite 1989N1, discovered by Voyager 2.

Neptune’s ring system, shown in two exposures lasting nearly 10 minutes each.

Detail of Neptune’s rings.

Southern hemisphere on Triton.

View about 300 miles across of Triton’s surface.

Triton from 80,000 miles. Long feature is probably a narrow down-dropped fault block.

Triton’s south polar terrain. About 50 dark plumes mark what may be ice volcanoes.

Triton from 25,000 miles. Depressions may be caused by melting and collapsing of icy surface.

High-resolution color mosaic of Triton.

Triton just after closest approach.

Post-encounter view of Neptune’s south pole.

Neptune and Triton 3 days after flyby. Triton is smaller crescent and is closer to viewer.

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