Voyager 1 Takes Our First Steps To the Stars. Or Has It?
Voyager 1
Voyager 1
Voyager 1 Location Map
In the Emptiness of Space 14 Billion Miles Away, Voyager I Detects “Hum
Voyager 1: Facts about Earth's farthest spacecraft
VIDEO
How Far is Voyager-1 Spacecraft Now
LIVE: Farthest Spacecraft in Space
Voyager 1 Probe Is Started Sending Mysterious Data From Interstellar Space. @thecosmosnews
Voyager 1 Stuns NASA with Mysterious Encounter in Interstellar Space
Voyager 1 is FINALLY responding again!
🤯🔭Voyager 1’s Distance from the Sun
COMMENTS
Voyager - Mission Status - NASA
Both Voyager1 and Voyager 2 have reached "Interstellar space" and each continue their unique journey through the Universe. In the NASA Eyes on the Solar System app, you can see the real spacecraft trajectories of the Voyagers, which are updated every five minutes. Distance and velocities are updated in real-time.
Voyager 1 Live Position | TheSkyLive.com
This page shows Voyager1 location and other relevant astronomical data in real time. The celestial coordinates, magnitude, distances and speed are updated in real time and are computed using high quality data sets provided by the JPL Horizons ephemeris service (see acknowledgements for details).
Voyager 1 | TheSkyLive
Voyager1Position Calculator. Compute the position of Voyager1 for any date and time between 1 January 2013 and 30 December 2099 and visualize the results on an interactive sky map.
Where Are They Now? - NASA Science
Voyager1 Present Position. This simulated view of the solar system allows you to explore the planets, moons, asteroids, comets, and spacecraft exploring our solar system. You can also fast-forward and rewind in real-time. NASA/JPL-Caltech.
Voyager - NASA
The Voyager1 and 2 spacecraft explored Jupiter, Saturn, Uranus and Neptune before starting their journey toward interstellar space. Here you'll find some of those iconic images.
Voyager 1 - Wikipedia
Voyager1. Heliocentric positions of the five interstellar probes (squares) and other bodies (circles) until 2020, with launch and flyby dates. Markers denote positions on 1 January of each year, with every fifth year labelled. Plot 1 is viewed from the north ecliptic pole, to scale.
Eyes on Voyager – NASA's Eyes
See which spacecraft is “phoning home” with DSN Now. Every five seconds, DSN Now updates with real-time data from the ground stations of the Deep Space Network. Click on a dish to learn more about the live connection between the spacecraft and the ground.
Voyager 1 - Interplanetary Missions - NASA Jet Propulsion ...
Interactive 3D model of Voyager1. View the full interactive experience at Eyes on the Solar System. Launch and mission summary for NASA's Voyager 1 mission to Jupiter, Saturn and beyond.
Voyager 1 and 2: The Interstellar Mission - NASA Space Place
The Voyager1 and 2 spacecraft launched from Earth in 1977. Their mission was to explore Jupiter and Saturn —and beyond to the outer planets of our solar system. This was a big task. No human-made object had ever attempted a journey like that before.
Voyager 1: 'The Spacecraft That Could' Hits New Milestone
Voyager1, already the most distant human-made object in the cosmos, reaches 100 astronomical units from the sun on Tuesday, August 15 at 5:13 p.m. Eastern time (2:13 p.m. Pacific time). That means the spacecraft, which launched nearly three decades ago, will be 100 times more distant from the sun than Earth is.
IMAGES
VIDEO
COMMENTS
Both Voyager 1 and Voyager 2 have reached "Interstellar space" and each continue their unique journey through the Universe. In the NASA Eyes on the Solar System app, you can see the real spacecraft trajectories of the Voyagers, which are updated every five minutes. Distance and velocities are updated in real-time.
This page shows Voyager 1 location and other relevant astronomical data in real time. The celestial coordinates, magnitude, distances and speed are updated in real time and are computed using high quality data sets provided by the JPL Horizons ephemeris service (see acknowledgements for details).
Voyager 1 Position Calculator. Compute the position of Voyager 1 for any date and time between 1 January 2013 and 30 December 2099 and visualize the results on an interactive sky map.
Voyager 1 Present Position. This simulated view of the solar system allows you to explore the planets, moons, asteroids, comets, and spacecraft exploring our solar system. You can also fast-forward and rewind in real-time. NASA/JPL-Caltech.
The Voyager 1 and 2 spacecraft explored Jupiter, Saturn, Uranus and Neptune before starting their journey toward interstellar space. Here you'll find some of those iconic images.
Voyager 1. Heliocentric positions of the five interstellar probes (squares) and other bodies (circles) until 2020, with launch and flyby dates. Markers denote positions on 1 January of each year, with every fifth year labelled. Plot 1 is viewed from the north ecliptic pole, to scale.
See which spacecraft is “phoning home” with DSN Now. Every five seconds, DSN Now updates with real-time data from the ground stations of the Deep Space Network. Click on a dish to learn more about the live connection between the spacecraft and the ground.
Interactive 3D model of Voyager 1. View the full interactive experience at Eyes on the Solar System. Launch and mission summary for NASA's Voyager 1 mission to Jupiter, Saturn and beyond.
The Voyager 1 and 2 spacecraft launched from Earth in 1977. Their mission was to explore Jupiter and Saturn —and beyond to the outer planets of our solar system. This was a big task. No human-made object had ever attempted a journey like that before.
Voyager 1, already the most distant human-made object in the cosmos, reaches 100 astronomical units from the sun on Tuesday, August 15 at 5:13 p.m. Eastern time (2:13 p.m. Pacific time). That means the spacecraft, which launched nearly three decades ago, will be 100 times more distant from the sun than Earth is.