They have spent the best part of half a century travelling farther from Earth than any other man-made objects.
But the two Voyager spacecraft are now entering their final phase, with NASA eyeing a potential timeline for their powering-down.
Voyager 1 is currently 14.5 billion miles (23.3bn km) from Earth, a distance which takes 20 light hours and 33 minutes to travel, while Voyager 2 is 12 billion miles and 18 hours’ light distance from us.
It means it takes two days for engineers to send a message to the spacecraft and get a response.
Both Voyagers launched from Cape Canaveral in Florida in 1977 — with Voyager 2 departing a month earlier than 1 — and were designed to last five years to study Jupiter and Saturn.
They have far exceeded that, however, having been travelling for 44 years, but NASA is now planning to begin turning off some of the Voyagers’ systems in the hope of eking out the spacecrafts’ remaining power to extend their journeys to about 2030.
Speaking to the magazine Scientific American about powering down the Voyagers, NASA physicist Ralph McNutt said: ‘We’re at 44 and a half years, so we’ve done 10 times the warranty on the darn things.’
End of an era: They have spent the best part of half a century travelling farther from Earth than any other man-made objects. But it appears the two Voyager spacecraft are entering their final phase, with NASA eyeing a potential timeline for their powering-down. Voyager 1 (pictured) is currently 14.5 billion miles (23.3bn km) from Earth
Voyager 1 crossed into interstellar space in August 2012 – and is continuing to collect data. No manmade object has travelled further than NASA’s iconic spacecraft
Speaking to the magazine Scientific American about powering down the spacecraft, NASA physicist Ralph McNutt said: ‘We’re at 44 and a half years, so we’ve done 10 times the warranty on the darn things.’ Voyager 2 (pictured) is 12 billion miles and 18 hours’ light distance from us
Uranus’ icy moon Miranda is seen in this image from Voyager 2 on January 24, 1986. Unfortunately, Nasa predicts that it will have to turn off the last science instrument by 2030. But even after the spacecraft go silent, they will continue their journey, completing an orbit within the Milky Way every 225 million years
Neptune’s blue-green atmosphere is shown in greater detail than ever before by the Voyager 2 spacecraft as it rapidly approaches its encounter with the giant planet
The two probes are powered by radioisotope thermoelectric generators (RTGs) – which are powered by the heat from decaying spheres of plutonium.
However, the output of these RTGs is decreasing by about four watts every year, which means the instruments on both Voyagers are being turned off one by one.
Voyager 1 now has just four functioning instruments left, while Voyager 2 has five.
Some estimate that they could come to the end of their life as early as 2025, with the plutonium powering the spacecraft decaying beyond what is necessary to keep them going.
However, others are more optimistic and think the Voyagers could yet continue into the next decade.
Having just passed Uranus on February 14, 1990, Voyager 1 captured our planet as a tiny dot (pictured). Four years later the astronomer Carl Sagan reflected on the significance of the photograph to an audience at Cornell University, famously coining its name as the ‘Pale Blue Dot’
An image of Saturn taken in Voyager’s blue and violet filters and processed to recreate an approximately natural colour and contrast
The spacecraft, currently further away from the Earth than any human-made object before it, launched 44 years ago to study the gas giants of the outer solar system
Thirteen days into its mission, after reaching a distance of 7.25 million miles, Voyager 1 turned its camera back toward Earth and snapped the first ever photograph of the Earth-moon system in a single frame (pictured)
They have certainly surprised NASA engineers before. Two years ago scientists expected to have to start switched off instruments on the probes, but as yet nothing has been turned off since 2008.
Planetary scientist Linda Spilker, who started working on the Voyager missions before they launched, told Scientific American: ‘If everything goes really well, maybe we can get the missions extended into the 2030s. It just depends on the power. That’s the limiting point.’
The probes were launched almost half a century ago after engineers took advantage of a rare alignment of Jupiter, Saturn, Uranus and Neptune, which happens once every 176 years.
This allowed them to fire the two Voyagers into orbit and use gravity assists at each planet to send them on to the next.
They explored all the giant planets of our outer solar system: Jupiter, Saturn, Uranus and Neptune; 48 of their moons; and the unique system of rings and magnetic fields those planets possess.
The Voyagers gave mankind its closest look at the moons of Jupiter and Saturn, while their string of discoveries also included active volcanoes on Jupiter’s moon Io and a study of the intricacies of Saturn’s rings.
Voyager 2 is still the only spacecraft to have visited Uranus and Neptune.
Thirteen days into its mission, after reaching a distance of 7.25 million miles, Voyager 1 turned its camera back toward Earth and snapped the first ever photograph of the Earth-moon system in a single frame.
It would also later capture our planet as a tiny dot, having just passed Uranus on February 14, 1990.
Four years later the astronomer Carl Sagan reflected on the significance of the photograph to an audience at Cornell University, famously coining its name as the ‘Pale Blue Dot’, and giving one of the most widely published speeches of all time.
These two pictures of Uranus – one in true colour (left) and the other in false colour – were compiled from images returned January 17, 1986, by the narrow-angle camera of Voyager 2
The Voyagers gave mankind its closest look at the moons of Jupiter and Saturn, while their string of discoveries also included active volcanoes on Jupiter’s moon Io and a study of the intricacies of Saturn’s rings. Voyager 1 took this stunning image of Io showing an active plume of Loki on limb
Both Voyagers launched from Cape Canaveral in Florida in 1977 — with Voyager 2 (pictured) departing a month earlier than 1 — and were designed to last five years to study Jupiter and Saturn
‘Consider again that dot. That’s here. That’s home. That’s us. On it everyone you love, everyone you know, everyone you ever heard of, every human being who ever was, lived out their lives,’ he said.
‘The aggregate of our joy and suffering, thousands of confident religions, ideologies, and economic doctrines, every hunter and forager, every hero and coward, every creator and destroyer of civilisation, every king and peasant, every young couple in love, every mother and father, hopeful child, inventor and explorer, every teacher of morals, every corrupt politician, every “superstar”, every “supreme leader”, every saint and sinner in the history of our species lived there — on a mote of dust suspended in a sunbeam.’
The twin spacecraft are now exploring where nothing from Earth has flown before, having escaped beyond the hot plasma bubble known as the heliopause that defines the beginning of the edge of our solar system.
Voyager 1 made this historic entry into interstellar space — the region between stars, filled with material ejected by the death of nearby stars millions of years ago — in August 2012.
Voyager 2 entered interstellar space on November 5, 2018.
However, neither of the probes are currently considered to be outside of the solar system.
Scientists see the final boundary as the Oort Cloud, a collection of small objects still under the influence of the sun’s gravity.
NASA has said it would take about 300 years for Voyager 2 to reach the inner edge of the Oort Cloud, and possibly 30,000 years to fly beyond it.
Both spacecraft carry a greeting to any form of life, should that be encountered.
The message is carried by a phonograph record — a 12-inch gold-plated copper disk containing sounds and images selected to portray the diversity of life and culture on Earth.
The Voyager spacecraft are the third and fourth human spacecraft to fly beyond all the planets in our solar system.
Pioneers 10 and 11 preceded Voyager in outstripping the gravitational attraction of the sun but on February 17, 1998, Voyager 1 passed Pioneer 10 to become the most distant human-made object in space.
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