voyager is moving

After months of sending gibberish to NASA, Voyager 1 is finally making sense again

NASA's Voyager 1 probe has resumed sending usable data back to Earth after engineers fixed a computer error that caused the interstellar spacecraft to only transmit gibberish for five months.

NASA's Voyager 1 probe is once again sending readable radio signals back to Earth after engineers fixed a computer glitch that caused the spacecraft to malfunction in November .

For the first time in five months, Voyager 1 is now transmitting usable data about the health and status of its onboard engineering systems back to our planet, NASA's Jet Propulsion Laboratory announced Monday (April 22). However, engineers have yet to fix the software that enables the spacecraft to return science data.

Voyager 1 is cruising through interstellar space roughly 15 billion miles (24 billion kilometers) away from Earth, which means mission control teams have to wait 22.5 hours for their commands to reach the spacecraft and another 22.5 hours for a response. Voyager 1 and its twin probe — Voyager 2, which continues to operate normally after a 2-week blackout last year — were launched almost 47 years ago and are the most distant human-made objects in existence. 

Engineers first noticed something wrong with Voyager 1 on Nov. 14, 2023, when the probe suddenly began transmitting a nonsensical stream of ones and zeros instead of its usual neatly packaged science and engineering datasets. 

Mission controllers could tell the spacecraft was still receiving their commands, however, indicating that its vital systems were operating normally.

Related: A mysterious 'hum' vibrates interstellar space. Voyager 1 has a recording of it.

In early March, after three months of unsuccessful tinkering , NASA engineering teams determined the issue was tied to one of Voyager 1's three onboard computer systems known as the "flight data subsystem" (FDS). The FDS is essential for packaging data harvested by the probe before they are sent to Earth, according to NASA's announcement.

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Engineers located the glitch by sending a command — or "poke" — that prompted the FDS to try new sequences of code in its software in case the issue could be resolved by skirting a corrupted section. The command triggered a signal that differed from the stream of gibberish the spacecraft had been sending back, and that engineers were able to decode . 

It turned out a single chip responsible for storing a portion of the FDS memory, including some of its computer software code, had stopped working. The loss of that code meant the probe's science and engineering data were unusable, according to NASA. To get around the issue, engineers broke up the code once stored in the chip and squeezed sections of it into functioning portions of the FDS memory. 

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The team then rewrote some of the reshuffled code so it could work as a whole again.

Engineers saved these modifications to the FDS memory on April 18. Two days later, they received a response from Voyager 1 showing that the reshuffle worked. For the first time in five months, the probe's message contained readable data, prompting celebrations at the Jet Propulsion Laboratory in Southern California.

However, solving the spacecraft's science data transmission will take further mending of the corrupted portions of the FDS software, NASA said in its announcement.

Sascha is a U.K.-based trainee staff writer at Live Science. She holds a bachelor’s degree in biology from the University of Southampton in England and a master’s degree in science communication from Imperial College London. Her work has appeared in The Guardian and the health website Zoe. Besides writing, she enjoys playing tennis, bread-making and browsing second-hand shops for hidden gems.

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admin said: NASA engineers have fixed a computer error that caused the interstellar Voyager 1 probe to glitch and stop transmitting data back to Earth for five months. After months of sending gibberish to NASA, Voyager 1 is finally making sense again : Read more

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NASA's Voyager 1 resumes sending engineering updates to Earth

For the first time since November, NASA's Voyager 1 spacecraft is returning usable data about the health and status of its onboard engineering systems. The next step is to enable the spacecraft to begin returning science data again. The probe and its twin, Voyager 2, are the only spacecraft to ever fly in interstellar space (the space between stars).

Voyager 1 stopped sending readable science and engineering data back to Earth on Nov. 14, 2023, even though mission controllers could tell the spacecraft was still receiving their commands and otherwise operating normally. In March, the Voyager engineering team at NASA's Jet Propulsion Laboratory in Southern California confirmed that the issue was tied to one of the spacecraft's three onboard computers, called the flight data subsystem (FDS). The FDS is responsible for packaging the science and engineering data before it's sent to Earth.

The team discovered that a single chip responsible for storing a portion of the FDS memory—including some of the FDS computer's software code—isn't working. The loss of that code rendered the science and engineering data unusable. Unable to repair the chip, the team decided to place the affected code elsewhere in the FDS memory. But no single location is large enough to hold the section of code in its entirety.

So they devised a plan to divide the affected code into sections and store those sections in different places in the FDS. To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole. Any references to the location of that code in other parts of the FDS memory needed to be updated as well.

The team started by singling out the code responsible for packaging the spacecraft's engineering data. They sent it to its new location in the FDS memory on April 18. A radio signal takes about 22.5 hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22.5 hours for a signal to come back to Earth. When the mission flight team heard back from the spacecraft on April 20, they saw that the modification had worked: For the first time in five months, they were able to check the health and status of the spacecraft.

During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software. These include the portions that will start returning science data.

Voyager 2 continues to operate normally. Launched over 46 years ago, the twin Voyager spacecraft are the longest-running and most distant spacecraft in history. Before the start of their interstellar exploration, both probes flew by Saturn and Jupiter, and Voyager 2 flew by Uranus and Neptune.

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NASA is keeping Voyager 2 going until at least 2026 by tapping into backup power

Emma Bowman

Artist's concept of NASA's Voyager spacecraft. After the Voyager 1 and its replica Voyager 2 launched in 1977, their power sources are slowly dying. NASA/JPL-Caltech hide caption

Artist's concept of NASA's Voyager spacecraft. After the Voyager 1 and its replica Voyager 2 launched in 1977, their power sources are slowly dying.

NASA's Voyager 2 spacecraft, which has been probing the outer bounds of the solar system for over 45 years, is running out of power. But a new plan aims to keep its interstellar mission alive for at least three more years.

The Voyager 2, first launched in 1977, has been helping scientists investigate faraway planets and understand how the heliosphere — the sun's outermost atmospheric bubble-like layer that traps particles and magnetic fields — protects Earth from its volatile interstellar environment.

With Voyager 2's power supply dwindling, NASA was about to shut down one of its five science instruments onboard the spacecraft. To keep it going, engineers had already sacrificed heaters and other nonessential parts that drained power. But engineers have now found a way to tap reserve power from a safety mechanism that regulates the spacecraft's voltage.

These are the 4 astronauts who'll take a trip around the moon next year

"The move will enable the mission to postpone shutting down a science instrument until 2026, rather than this year," NASA's Jet Propulsion Laboratory said this past week.

Voyager 2 and its twin, Voyager 1 (launched the same year), are the only spacecraft to have ventured beyond the heliosphere.

Ed Stone, who was the chief scientist at NASA's Jet Propulsion Lab before he retired last year, has spent over half his life dedicated to the Voyager program. He oversaw the spacecrafts churn out one discovery after another as they explored Jupiter, Saturn, Uranus and Neptune.

"What it revealed was how complex and dynamic the solar system really is. Before Voyager, the only known active volcanoes were here on Earth," Stone told NPR in 2017 . "Then we flew by Jupiter's moon, Io, and it has 10 times the volcanic activity of earth. Before Voyager, the only known oceans in the solar system were here on Earth. Then we flew by another moon of Jupiter, Europa, which it turns out has a liquid water ocean beneath its icy crust."

Voyager 2 is 12.3 billion miles away from Earth and counting . Voyager 1, also facing an expiration date as it also loses power, is 14.7 billion miles away.

"The science data that the Voyagers are returning gets more valuable the farther away from the Sun they go, so we are definitely interested in keeping as many science instruments operating as long as possible," Linda Spilker, the Voyager program's project scientist at the Jet Propulsion Lab, said in a statement.

NASA, meanwhile, has been working to make sure the Voyagers' legacy doesn't end with a slow fizzle, with officials weighing expensive and complex proposals from several groups for a new, long-term probe.

NASA's Voyager 1 Is Finally Making Sense After Months of Transmitting Gibberish

An artist’s concept of NASA’s Voyager 1 spacecraft.

The Voyager 1 spacecraft returned usable data for the first time in more than five months, giving hope for the 46-year-old mission to finally be able to resume its normal operations.

NASA’s favorite interstellar probe transmitted data about the health and status of its onboard engineering systems to mission control on Saturday, the space agency announced . That’s great news for the mission, and the next step is hopefully for Voyager 1 to begin returning science data again.

The last time Voyager 1 sent readable science and engineering data back to Earth was on November 14, 2023. Afterwards, the spacecraft was receiving commands, but talking back to Earth in unusable gibberish . The storied spacecraft is exploring the outermost edge of the Sun’s domain, combining its observations with data from newer missions to get a better understanding of how the heliosphere interacts with interstellar space.

Related article: Voyager Probes Spot Previously Unknown Phenomenon in Deep Space

In March, the team at NASA’s Jet Propulsion Lab (JPL) pinpointed the cause behind Voyager 1's nonsensical data : a single chip responsible for storing part of the affected portion of the spacecraft’s flight data system (FDS) memory.

FDS collects data from Voyager’s science instruments, as well as engineering data about the health of the spacecraft, and combines them into a single package that’s transmitted to Earth in binary code. Since the glitch, however, the mission has been sending data in a repeating pattern of ones and zeroes.

Voyager 1 is 15.14 billion miles away, which makes repairing it that much more complicated. The engineers at JPL knew that they couldn’t fix the chip, but they could try to place the affected code elsewhere in the FDS memory.

Members of the Voyager flight team celebrate after receiving the signal back from Voyager 1 on April 20.

Instead of selecting a single location to hold all of the affected code, the team came up with a plan to divide it into sections and store those sections in different places in the FDS. On April 18, the mission team singled out the code responsible for packaging the spacecraft’s engineering data and sent it to its new location.

Two days later, the engineers heard back from the Voyager 1 spacecraft. It takes around 22.5 hours to send a radio signal to the spacecraft, and another 22.5 hours to receive one back.

Over the coming weeks, the Voyager 1 team will relocate the other affected portions of the software to different parts of the FDS memory, including portions related to the mission’s science data.

Voyager 1 launched in 1977, less than a month after its twin probe, Voyager 2, began its own journey to space. The probe ventured into interstellar space in August 2012, becoming the first spacecraft to leave the heliosphere. The twin spacecraft are the longest-running missions in history, and aside from a few communication glitches, the pair are doing pretty well for their age.

For more spaceflight in your life, follow us on X and bookmark Gizmodo’s dedicated Spaceflight page .

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Trump's hush money trial resumes as ex-National Enquirer boss testifies

Voyager-1 sends readable data again from deep space.

The US space agency says its Voyager-1 probe is once again sending usable information back to Earth after months of spouting gibberish.

The 46-year-old Nasa spacecraft is humanity's most distant object.

A computer fault stopped it returning readable data in November but engineers have now fixed this.

For the moment, Voyager is sending back only health data about its onboard systems, but further work should get the scientific instruments back online.

Voyager-1 is more than 24 billion km (15 billion miles) away , so distant, its radio messages take fully 22.5 hours to reach us.

"Voyager-1 spacecraft is returning usable data about the health and status of its onboard engineering systems," Nasa said in a statement.

"The next step is to enable the spacecraft to begin returning science data again."

Voyager-1 was launched from Earth in 1977 on a tour of the outer planets, but then just kept going.

It moved beyond the bubble of gas emitted by the Sun - a domain known as the heliosphere - in 2012 , and is now embedded in interstellar space, which contains the gas, dust and magnetic fields from other stars.

Voyager-1 departs to interstellar space

Inside world's greatest space mission

The maths that made Voyager possible

A corrupted chip has been blamed for the ageing spacecraft's recent woes.

This prevented Voyager's computers from accessing a vital segment of software code used to package information for transmission to Earth.

For a period of time, engineers could get no sense whatsoever out of Voyager, even though they could tell the spacecraft was still receiving their commands and otherwise operating normally.

The issue was resolved by shifting the affected code to different locations in the memory of the probe's computers.

Voyager-1 departed Earth on 5 September 1977, a few days after its sister spacecraft, Voyager-2.

The pair's primary objective was to survey the planets Jupiter, Saturn, Uranus and Neptune - a task they completed in 1989.

They were then steered towards deep space, in the general direction of our galaxy's centre.

Their power comes from radioisotope thermoelectric generators (RTGs), which convert heat from decaying plutonium into electricity. The continual decay process means the generators produce slightly less power each year.

How much longer the Voyagers can continue is uncertain, but engineers have until now always come up with strategies to eke out a few extra years of operations.

Voyager-2 is a little behind its twin and moving slightly slower.

It's just over 20 billion km (13 billion miles) from Earth.

Even though both are travelling at over 15 km per second (9 miles/s), they would not approach another star for tens of thousands of years.

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April 22, 2024

After Months of Gibberish, Voyager 1 Is Communicating Well Again

NASA scientists spent months coaxing the 46-year-old Voyager 1 spacecraft back into healthy communication

By Meghan Bartels

NASA’s Voyager 1 spacecraft is depicted in this artist’s concept traveling through interstellar space, or the space between stars, which it entered in 2012.

NASA/JPL-Caltech

After months of nonsensical transmissions from humanity’s most distant emissary, NASA’s iconic Voyager 1 spacecraft is finally communicating intelligibly with Earth again.

Voyager 1 launched in 1977 , zipped past Jupiter and Saturn within just a few years and has been trekking farther from our sun ever since; the craft crossed into interstellar space in 2012. But in mid-November 2023 Voyager 1’s data transmissions became garbled , sending NASA engineers on a slow quest to troubleshoot the distant spacecraft. Finally, that work has paid off, and NASA has clear information on the probe’s health and status, the agency announced on April 22.

“It’s the most serious issue we’ve had since I’ve been the project manager, and it’s scary because you lose communication with the spacecraft,” said Suzanne Dodd, Voyager project manager at NASA’s Jet Propulsion Laboratory in an interview with Scientific American when the team was still tracking down the issue.

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The Voyager 1 spacecraft is a scientific legend : It discovered that Jupiter’s moon Io, far from being a dead world like our own companion, is instead a supervolcanic world . The craft’s data suggested that Saturn’s moon Titan might have liquid on its surface. And for more than a decade, Voyager 1 has given scientists a glimpse at what space looks like beyond the influence of our sun.

Yet its long years in the harsh environment of space have done a number on the probe, which was designed to last just four years. In particular, degraded performance and low power supplies have forced NASA to turn off six of its 10 instruments, and its communication has gotten even spottier than can be explained by the fact that cosmic mechanics mean a signal takes nearly one Earth day to travel between humans and the probe.

When the latest communications glitch occurred last fall, scientists could still send signals to the distant probe, and they could tell that the spacecraft was operating. But all they got from Voyager 1 was gibberish—what NASA described in December 2023 as “a repeating pattern of ones and zeros.” The team was able to trace the issue back to a part of the spacecraft’s computer system called the flight data subsystem, or FDS, and identified that a particular chip within that system had failed.

Mission personnel couldn’t repair the chip. They were, however, able to break the code held on the failed chip into pieces they could tuck into spare corners of the FDS’s memory, according to NASA. The first such fix was transmitted to Voyager 1 on April 18. With a total distance of 30 billion miles to cross from Earth to the spacecraft and back, the team had to wait nearly two full days for a response from the probe. But on April 20 NASA got confirmation that the initial fix worked. Additional commands to rewrite the rest of the FDS system’s lost code are scheduled for the coming weeks, according to the space agency, including commands that will restore the spacecraft’s ability to send home science data.

Although, for now, Voyager 1 appears to be on the mend, NASA scientists know it won’t last forever. Sooner or later, a glitch they can’t fix will occur, or the spacecraft’s ever dwindling fuel supply will run out for good. Until then NASA is determined to get as much data as possible out of the venerable spacecraft—and its twin, Voyager 2, which experienced its own communications glitch earlier in 2023 .

The most distant spacecraft in the solar system — Where are they now?

Humans have been flinging things into deep space for 50 years now, since the 1972 launch of Pioneer 10. We now have five spacecraft that have either reached the edges of our solar system or are fast approaching it: Pioneer 10, Pioneer 11, Voyager 1, Voyager 2 and New Horizons. 

Most of these probes have defied their expected deaths and are still operating long beyond their original mission plans. These spacecraft were originally planned to explore our neighboring planets, but now they're blazing a trail out of the solar system , providing astronomers with unique vantage points in space — and they've been up to a lot in 2022.

Voyagers 1 and 2

The Voyager missions celebrated a very special anniversary this year: 45 years of operations . From close fly-bys of the outer planets to exploring humans' furthest reach in space, these two spacecraft have contributed immensely to astronomers' understanding of the solar system. 

Related : Voyager: 15 incredible images of our solar system captured by the twin probes (gallery)  

Their main project now is exploring where the sun 's influence ends, and other stars' influences begin. Voyager 1 crossed the heliopause, the boundary where the sun's flow of particles ceases to be the most important influence, in 2012 with Voyager 2 following close after, in 2018. 

"Voyager 1 has now been in interstellar space for a decade…and it's still going, still going strong," Linda Spilker, Voyager project scientist and a planetary scientist at NASA's Jet Propulsion Laboratory (JPL) in California, told Space.com.

The mission team hit one major hiccup this year, when the spacecraft began sending home garbled information about its location. The engineers found the cause — the spacecraft was using a bad piece of computer hardware when it shouldn't have — and restored operations.

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These kinds of incidents are to be expected with an aging spacecraft, though. The team is also actively managing the power supply onboard each spacecraft, which is dwindling each year as the probes' radioactive generators grow increasingly inefficient. This year, mission personnel turned off heaters keeping a number of scientific instruments on board warm in the harsh, cold environment of space — and, much to everyone's surprise, those instruments are still working perfectly well.

The cameras may have been turned off decades ago, but the spacecrafts' other instruments are collecting data on the plasma and magnetic fields from the sun at a great distance away from the star itself. Because particles of the solar wind — the constant stream of charged particles flowing off the sun — take time to travel such a long way, distant observations allow scientists to see how changes from the sun propagate throughout our cosmic neighborhood. 

The edges of the solar system have been full of surprises, too. It would make sense that plasma from the sun becomes more sparse and spread out as you move away from the center of the solar system, but in fact, the Voyagers have encountered much denser plasma after crossing the heliopause. Astronomers are still puzzled about that one.

"It's just so amazing that even after all this time we continue to see the sun's influence in interstellar space," Spilker said. "I'm looking forward to Voyager continuing to operate, perhaps reaching the 50th anniversary." 

Pioneers 10 and 11

The Pioneer spacecraft hold a special place in space history because of their role as, you guessed it, pioneers. Unfortunately, these milestone 50-year-old spacecraft are non-functional — Pioneer 10 lost communications back in 2003, and Pioneer 11 has been silent since its last contact in 1995. 

But both these spacecraft are marks of humanity's presence in the solar system, and they are still continuing on their journeys, even if we're not sending them commands or firing their rockets anymore. Once a spacecraft is set on a trajectory out of the solar system, according to the laws of physics, it won't stop unless something changes its course.

New Horizons

New Horizons is by far the youngest sibling of these groundbreaking missions, having just launched in 2006 . After completing its famous flyby of dwarf planet Pluto in 2015 , this probe has been zooming out of the solar system at record speed, set to reach the heliopause around 2040. 

Not only has it completed its primary mission, but it successfully completed a flyby of the smaller Kuiper Belt object, Arrokoth , in 2019 as its first mission extension. Earlier this year, the spacecraft was put into hibernation mode because an extended mission hadn't yet been approved. But now, the team is excitedly moving into New Horizons' 2nd Kuiper Belt Extended Mission, or KEM2 for short. KEM2 began on Oct. 1 , although the spacecraft will hibernate until March 1, 2023.

In the meantime, the mission team is preparing for exciting new observations. With cutting-edge instruments — far more advanced than what the Voyagers carried in the 1970s — the team is prepared to use New Horizons as a powerhouse observatory in the distant solar system, providing a viewpoint we can't achieve here on Earth . 

Bonnie Burrati, planetary scientist at JPL and member of the New Horizons team, is particularly looking forward to new views of Kuiper Belt objects (KBOs), the chunks of ice and rock beyond Neptune . New Horizons' unique position in the outer solar system provides new angles of looking at these KBOs, she said. Different views can tell astronomers about how rough the objects' surfaces are, among other things, based on how light scatters and creates shadows on them. 

Another planetary scientist on the team from Southwest Research Institute in Colorado, Leslie Young, wants to use the spacecraft for a new look at something closer to home: the ice giants, Uranus and Neptune. New Horizons’ unique viewpoint provides scientists with information about how light scatters through the planets’ atmospheres—information we can’t get from here on Earth, since we can’t see Uranus and Neptune from that angle. Planetary scientists are eager for more information about these planets, especially as NASA begins planning for a new mission to visit Uranus.

— The icy 'space snowman' Arrokoth in deep space just got names for its best features — Pale Blue Dot at 30: Voyager 1's iconic photo of Earth from space reveals our place in the universe — Destination Pluto: NASA's New Horizons mission in pictures  

When the spacecraft wakes from hibernation, it will be past the so-called "Kuiper cliff," where scientists currently think there are far fewer large KBOs. "When we look at other star systems, we see debris disks extending to much larger distances from their host stars," Bryan Holler, an astronomer at Baltimore's Space Telescope Science Institute, told Space.com. "If ET were to look at our solar system, would they see the same thing?"

This next extended mission will even venture beyond New Horizons' original domain of planetary science. Now, the spacecraft will provide better-than-ever measurements of the background of light and cosmic rays in space, trace the distributions of dust throughout our solar system, and obtain crucial information on the sun's influence, complimentary to the Voyagers. Since the three functional far out spacecraft are heading in separate directions, they allow astronomers to map out irregularities in the solar system's structure.

Luckily for New Horizons, signs indicate that the spacecraft will have enough power to last through the 2040s and possibly beyond — each year, moving 300 million miles (480 million kilometers) farther into uncharted territory.

Follow the author at @ briles_34 on Twitter. Follow us on Twitter @ Spacedotcom and on Facebook .

Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: [email protected].

Briley Lewis (she/her) is a freelance science writer and Ph.D. Candidate/NSF Fellow at the University of California, Los Angeles studying Astronomy & Astrophysics. Follow her on Twitter @briles_34 or visit her website www.briley-lewis.com . 

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Voyager 1 is 15 billion miles from home and broken. Here's how NASA is trying to fix it.

A scrambled computer signal may be the key that helps NASA engineers resume data transmission from the distant Voyager 1, a spacecraft that was launched in 1977 and now, 15 billion miles from home, is the farthest a human-made object has traveled from Earth.

Voyager 1 – and its sister craft, Voyager 2 – are robotic space probes that became the first spacecraft to leave our solar system and plunge into interstellar space, 11 billion miles from the sun.

They were designed to last five years , but have become the longest-operating spacecraft in history. Both carry gold-plated copper discs containing sounds and images from Earth, contents that were chosen by a team headed by celebrity astronomer Carl Sagan .

Voyager 2, now 12.7 billion miles from Earth, is functioning normally. However, a computer problem aboard Voyager 1 on Nov. 14, 2023, corrupted the stream of science and engineering data the craft is sending to Earth, making it unreadable , arstechnica.com reported.

Voyager 1 can receive communications from Earth. It is still transmitting, but its returning signals have been replaced “with a monotonous dial tone ,” according to space.com.

Unable to see our graphics? Click here to see them .

What's the problem with Voyager 1?

NASA and Jet Propulsion Laboratory engineers traced the problem to one of Voyager’s three onboard computers, one called a Flight Data System. The system collects information, including:

◾ Data from science instruments that monitor cosmic rays, solar wind particles, the sun's magnetic field, and other phenomena.

◾ Engineering data on spacecraft operating systems.

The Flight Data System gives that information to the spacecraft’s Telemetry Modulation Unit. The The unit converts the data to binary code – consisting of zeros and ones, the simplest form of computer code – then transmits that code to Earth, using Voyager's 12-foot antenna dish.

The data is received by NASA's Deep Space Network , giant 112-foot radio antennas placed around the world. The network handles space communications from several missions.

In November, the Telemetry Modulation Unit transmissions became a repeating pattern of zeros and ones " as if it were stuck ," NASA said.

Engineers restarted the Flight Data System in December, but that failed to fix the problem.

Voyager 1 is far away – and it's getting old

Voyager 1 has been in space for more than 46 years. Attempts to fix problems aboard the spacecraft often mean "consulting original, decades-old documents written by engineers who didn’t anticipate the issues that are arising today," NASA says. 

Engineers have consulted archived documents to find solutions to other Voyager problems in the past, wired.com says.

Engineers need time to understand how new commands will affect the spacecraft and to avoid unintended consequences. It's a complicated, time-consuming process.

A long time lag makes solving the problem more difficult. Voyager is moving at about 38,000 mph. It takes 22.5 hours for an Earth radio signal to reach Voyager and another 22.5 hours for the spacecraft’s reply to reach antenna networks on Earth.

That means engineers must wait 45 hours to get a response and learn if a command has been successful.

What was the key computer signal?

The key signal was received after engineers "poked" the spacecraft.

◾ March 1: Teams send a command known as a “poke” to Voyager. In essence, the poke tells the Flight Data System to try different sequences in its software program, in the hope a corrupted portion can be found and bypassed.

◾ March 3: Engineers receive a new signal from Voyager that is different from both the unreadable dial tone and the spacecraft’s original transmission stream.

◾ March 7: Engineers begin decoding the signal.

◾ March 10: A Deep Space Network engineer finishes decoding the new signal and finds it contains a readout of the spacecraft’s entire Flight Data System memory. That includes instructions for the spacecraft when it receives commands or when its operational status changes. 

The memory also contains science or engineering data for downlink, NASA says.

What happens next?

Engineers will compare the readout to those transmitted before the problem started. They hope to find differences that will help diagnose the problem.

Voyager 2 was launched first on Aug. 20, 1977. Voyager 1 was launched Sept. 5, 1977. It was put on a faster, shorter trajectory, which took it to interstellar space ahead of Voyager 2.

The Voyagers are the only spacecraft in the interstellar void. NASA's New Horizons probe , launched Jan. 19, 2006, flew past Pluto in 2015 and is expected to enter interstellar space in the 2040s.

The remarkable twin Voyager spacecraft continue to explore the outer reaches of the solar system decades after they completed their surveys of the Outer Planets.  Launched in 1977 (September 5 for Voyager 1 (V1) and August 20 for Voyager 2 (V2), whose trajectory took it past Jupiter after Voyager 1), the spacecraft pair made many fundamental discoveries as they flew past Jupiter (March 1979 for V1, July 1979 for V2) and Saturn (November 1980 for V1, August 1981 for V2).  The path of Voyager 2 past Saturn was targeted so that it continued within the plane of the solar system, allowing it to become the first spacecraft to visit Uranus (January 1986) and Neptune (August 1989).  Following the Neptune encounter, both spacecraft started a new phase of exploration under the intriguing title of the Voyager Interstellar Mission.

Five instruments continue to collect important measurements of magnetic fields, plasmas, and charged particles as both spacecraft explore different portions of the solar system beyond the orbits of the planets.  Voyager 1 is now more than 118 astronomical units (one AU is equal to the average orbital distance of Earth from the Sun) distant from the sun, traveling at a speed (relative to the sun) of 17.1 kilometers per second (10.6 miles per second).  Voyager 2 is now more than 96 AU from the sun, traveling at a speed of 15.5 kilometers per second (9.6 miles per second).  Both spacecraft are moving considerably faster than Pioneers 10 and 11, two earlier spacecraft that became the first robotic visitors to fly past Jupiter and Saturn in the mid-70s.

This processed color image of Jupiter was produced in 1990 by the U.S. Geological Survey from a Voyager image captured in 1979. The colors have been enhanced to bring out detail. Zones of light-colored, ascending clouds alternate with bands of dark, descending clouds. The clouds travel around the planet in alternating eastward and westward belts at speeds of up to 540 kilometers per hour. Tremendous storms as big as Earthly continents surge around the planet. The Great Red Spot (oval shape toward the lower-left) is an enormous anticyclonic storm that drifts along its belt, eventually circling the entire planet.

As seen in the night sky at Earth, Voyager 1 is within the confines of the constellation Ophiuchus, only slightly above the celestial equator; no telescope can see it, but radio contact is expected to be maintained for at least the next ten years.  Voyager 2 is within the bounds of the constellation Telescopium (which somehow sounds quite appropriate) in the far southern night sky.

Both spacecraft have already passed something called the Termination Shock † (December 2004 for V1, August 2007 for V2), where the solar wind slows as it starts to interact with the particles and fields present between the stars.  It is expected that both spacecraft will encounter the Heliopause, where the solar wind ceases as true interstellar space begins, from 10 to 20 years after crossing the Termination Shock.  Theories exist for what should be present in interstellar space, but the Voyagers will become the first man-made objects to go beyond the influences of the Sun, hopefully returning the first measurements of what it is like out there.  Each spacecraft is carrying a metal record with encoded sounds and sights from Earth, along with the needle needed to read the recordings, and simplified instructions for where the spacecraft came from, in case they are eventually discovered by intelligent extra-terrestrials.

Keep track of the Voyager spacecraft on the official  Voyager Interstellar Mission website or follow  @NASAVoyager2 on Twitter.    † The sun ejects a continuous stream of charged particles (electrons, protons, etc) that is collectively termed the solar wind.  The particles are traveling extremely fast and are dense enough to form a very tenuous atmosphere; the heliosphere represents the volume of space where the effects of the solar wind dominate over those of particles in interstellar space.  The solar wind particles are moving very much faster than the local speed of sound represented by their low volume density.  When the particles begin to interact with interstellar particles and fields (the interaction can be either physically running into other particles or experiencing an electromagnetic force resulting from a charged particle moving within a magnetic field), then they start to slow down.  The point at which they become subsonic (rather than their normal hypersonic speed) is the Termination Shock.

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Nasa voyager 1 making sense again after glitch in interstellar space.

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An illustration shows a Voyager spacecraft in space.

Humanity’s farthest-flung emissary is speaking clearly again after a tense five months of confusing communications. NASA’s Voyager 1 spacecraft—currently cruising in interstellar space—got in touch on April 20 with usable data on its health and status. That’s a triumph after a glitch in November caused the spacecraft to send back nothing but gibberish.

NASA’s official Voyager account on social media site X tweeted a simple message in celebration: “Hi, it's me.”

NASA shared a photo of the Voyager flight team celebrating the reception of the health and status data from the probe. The group has worked through some previous glitches, including another computer problem in 2022 . Technical issues are to be expected with an old machine like Voyager 1 that has weathered the demanding space environment for decades.

The Voyager 1 team had to play a long-distance game of detective with the elderly probe. NASA traced the problem to a single chip in the flight data subsystem, an onboard computer that prepares science and engineering data to be sent home. That chip held some of the FDS software code. “The loss of that code rendered the science and engineering data unusable,” said NASA in a statement on April 22. “Unable to repair the chip, the team decided to place the affected code elsewhere in the FDS memory.”

The FDS fix is complex and involves dividing and storing the code in different places. The team started with the code that lets Voyager 1 package up its engineering data. It worked. “During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software,” NASA said. “These include the portions that will start returning science data.” NASA has turned off some of the probe’s instruments as it has aged, but it can still collect data on interstellar space .

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The spacecraft and its twin Voyager 2 launched in 1977 with the goal of studying our solar system. Voyager 1 visited Jupiter and Saturn and then kept on going and going. In 2012, it left our cosmic neighborhood and entered the space between stars. It was the first human-made object to leave our solar system. Voyager 2 later followed its sibling into interstellar space in 2018.

Voyager 1’s distance and age make it challenging to troubleshoot. It takes about 22.5 hours for a signal to cover the 15 billion miles between Earth and the probe. It takes just as long to receive a response back. Voyager 1’s initial mission was set to last for just four years. “Finding solutions to challenges the probes encounter often entails consulting original, decades-old documents written by engineers who didn’t anticipate the issues that are arising today,” NASA said in a December statement.

The Voyager missions will come to an end someday. NASA hopes to keep at least one instrument operating on each spacecraft until around 2025. The science data may dry up, but the probes could still stay in touch with home. “The two Voyager spacecraft could remain in the range of the Deep Space Network through about 2036, depending on how much power the spacecraft still have to transmit a signal back to Earth,” said NASA . The adventure isn’t over yet.

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Two Voyager Spacecraft Still Going Strong After 20 Years 

Twenty years after their launch and long after their planetary reconnaissance flybys were completed, both Voyager spacecraft are now gaining on another milestone -- crossing that invisible boundary that separates our solar system from interstellar space, the heliopause.

Since 1989, when Voyager 2 encountered Neptune, both spacecraft have been studying the environment of space in the outer solar system. Science instruments on both spacecraft are sensing signals that scientists believe are coming from the heliopause -- the outer most edge of the Sun's magnetic field that the spacecraft must pass through before they reach interstellar space.

"During their first two decades the Voyager spacecraft have had an unequaled journey of discovery. Today, even though Voyager 1 is now more than twice as far from the Sun as Neptune, their journey is only half over and more unique opportunities for discovery await the spacecraft as they head toward interstellar space," said Dr. Edward Stone, Voyager project scientist and director of NASA's Jet Propulsion Laboratory, Pasadena, CA. "The Voyagers owe their ability to operate at such great distances from the Sun to their nuclear electric power sources, which provide the electrical power they need to function."

The Sun emits a steady flow of electrically charged particles called the solar wind. As the solar wind expands supersonically into space, it creates a magnetized bubble around the Sun, called the heliosphere. Eventually, the solar wind encounters the electrically charged particles and magnetic field in the interstellar gas. The boundary created between the solar wind and interstellar gas is the heliopause. Before the spacecraft reach the heliopause, they will pass through the termination shock -- the zone in which the solar wind abruptly slows down from supersonic to subsonic speed.

Reaching the termination shock and heliopause will be major milestones for the spacecraft because no one has been there before and the Voyagers will gather the first direct evidence of their structure. Encountering the termination shock and heliopause has been a long-sought goal for many space physicists, and exactly where these two boundaries are located and what they are like still remains a mystery.

"Based on current data from the Voyager cosmic ray subsystem, we are predicting the termination shock to be in the range of 62 to 90 astronomical units (AU) from the Sun. Most 'consensus' estimates are currently converging on about 85 AU. Voyager 1 is currently at about 67 AU and moving outwards at 3.5 AU per year, so I would expect crossing the termination shock sometime before the end of 2003," said Dr. Alan Cummings, a co- investigator on the cosmic ray subsystem at the California Institute of Technology.

"Based on a radio emission event detected by the Voyager 1 and 2 plasma wave instruments in 1992, we estimate that the heliopause is located at110 to 160 AU from the Sun," said Dr. Donald A. Gurnett, principal investigator on the plasma wave subsystem at the University of Iowa. (One AU is equal to 150 million kilometers, or 93 million miles, or the distance from the Earth to the Sun.)

"The low-energy charged particle instruments on the two spacecraft continue to detect ions and electrons accelerated at the Sun and at huge shock waves, tens of AU in radius, that are driven outward through the solar wind. During the past five years, we have observed marked variations in this ion population, but have yet to see clear evidence of the termination shock. We should always keep in mind that our theories may be incomplete and the shock may be a lot farther out than we think," said Dr. Stamatios M. Krimigis, principal investigator for the low energy charged particle subsystem at The Johns Hopkins University Applied Physics Laboratory.

Voyager 2 was launched first on Aug. 20, 1977 and Voyager 1 was launched a few weeks later on a faster trajectory on Sept. 5. Initially both spacecraft were only supposed to explore two planets -- Jupiter and Saturn. But the incredible success of those two first encounters and the good health of the spacecraft prompted NASA to extend Voyager 2's mission on to Uranus and Neptune. As the spacecraft flew across the solar system, remote-control reprogramming has given the Voyagers greater capabilities than they possessed when they left the Earth.

There are four other science instruments that are still functioning and collecting data as part of the Voyager Interstellar Mission. The plasma subsystem measures the protons in the solar wind. "Our instrument has recently observed a slow, year-long increase in the speed of the solar wind which peaked in late 1996, and we are now observing a slow decrease in solar wind velocity," said Dr. John Richardson, of the Massachusetts Institute of Technology, principal investigator on the plasma subsystem. "We think the velocity peak coincided with the recent solar minimum. As we approach the solar maximum in 2000 the solar wind pressure should decrease, which will result in the termination shock and heliopause moving inward towards the Voyager spacecraft."

The magnetometer on board the Voyagers measures the magnetic fields that are carried out into interplanetary space by the solar wind. The Voyagers are currently measuring the weakest interplanetary magnetic fields ever detected and those magnetic fields being measured are responsive to charged particles that cannot be detected directly by any other instruments on the spacecraft, according to Dr. Norman Ness, principal investigator on the magnetometer subsystem at the Bartol Research Institute, University of Delaware.

Other science instruments still collecting data include the planetary radio astronomy subsystem and the ultraviolet spectrometer subsystem.

Voyager 1 encountered Jupiter on March 5, 1979, and Saturn on November 12, 1980 and then, because its trajectory was designed to fly close to Saturn's large moon Titan, Voyager 1's path was bent northward by Saturn's gravity, sending the spacecraft out of the ecliptic plane, the plane in which all the planets except Pluto orbit the Sun. Voyager 2 arrived at Jupiter on July 9, 1979, and Saturn on August 25, 1981, and was then sent on to Uranus on January 25, 1986 and Neptune on August 25, 1989. Neptune's gravity bent Voyager 2's path southward, sending it out of the ecliptic plane as well and on toward interstellar space.

Both spacecraft have enough electrical power and attitude control propellant to continue operating until about 2020, when the available electrical power will no longer support science instrument operation. Spacecraft electrical power is supplied by Radioisotope Thermoelectric Generators (RTGs) that provided approximately 470 watts power at launch. Due to the natural radioactive decay of the plutonium fuel source, the electrical energy provided by the RTGs is continually declining. At the beginning of 1997, the power generated by Voyager 1 had dropped to 334 watts and to 336 watts for Voyager 2. Both of these power levels represent better performance than had been predicted before launch.

The Voyagers are now so far from home that it takes nine hours for a radio signal traveling at the speed of light to reach the spacecraft. Science data are returned to Earth in real-time to the 34-meter Deep Space Network (DSN) antennas located in California, Australia and Spain. Voyager 1 will pass the Pioneer 10 spacecraft in January 1998 to become the most distant human- made object in our solar system.

Voyager 1 is currently 10.1 billion kilometers (6.3 billion miles) from Earth, having traveled 11.9 billion kilometers (7.4 billion miles) since its launch. The Voyager 1 spacecraft is departing the solar system at a speed of 17.4 kilometers per second (39,000 miles per hour).

Voyager 2 is currently 7.9 billion kilometers (4.9 billion miles) from Earth, having traveled 11.3 billion kilometers (6.9 billion miles) since its launch. The Voyager 2 spacecraft is departing the solar system at a speed of 15.9 kilometers per second (35,000 miles per hour).

JPL, a division of the California Institute of Technology, manages the Voyager Interstellar Mission for NASA's Office of Space Science, Washington, D. C.

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golden record

Where are they now.

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Voyager 2 launched on August 20, 1977, from Cape Canaveral, Florida aboard a Titan-Centaur rocket. On September 5, Voyager 1 launched, also from Cape Canaveral aboard a Titan-Centaur rocket.

Planetary Tour

Between them, Voyager 1 and 2 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.

Closest approach to Jupiter occurred on March 5, 1979 for Voyager 1; July 9, 1979 for Voyager 2.

Closest approach to Saturn occurred on November 12, 1980 for Voyager 1; August 25, 1981 for Voyager 2.

Closest approach to Uranus occurred on January 24, 1986 by Voyager 2.

Closest approach to Neptune occurred on August 25, 1989 by Voyager 2.

Most Distant Spacecraft

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.

The Golden Record

Both Voyager spacecrafts 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 contents of the record were selected for NASA by a committee chaired by Carl Sagan of Cornell University. Dr. Sagan and his associates assembled 115 images and a variety of natural sounds. To this they added musical selections from different cultures and eras, and spoken greetings from Earth-people in fifty-five languages.

Present Status

As of April 2020, Voyager 1 is at a distance of 22.3 billion kilometers (149.0 AU) from the Sun.

Voyager 2 was at a distance of 18.5 billion kilometers (123.6 AU).

Voyager 1 is escaping the solar system at a speed of about 3.6 AU per year. Voyager 2 is escaping the solar system at a speed of about 3.3 AU per year.

There are currently five science investigation teams participating in the Interstellar Mission. They are:

1. Magnetic field investigation 2. Low energy charged particle investigation 3. Cosmic ray investigation 4. Plasma Investigation (Voyager 2 only) 5. Plasma wave investigation

Five instruments onboard the Voyagers directly support the five science investigations. The five instruments are:

1. Magnetic field instrument (MAG) 2. Low energy charged particle instrument (LECP) 3. Cosmic ray instrument (CRS) 4. Plasma instrument (PLS) 5. Plasma wave instrument (PWS)

One other instrument is collecting data but does not have official science investigation associated with it:

6. Ultraviolet spectrometer subsystem (UVS), Voyager 1 only

Termination Shock

Voyager 1 crossed the termination shock in December 2004 at about 94 AU from the Sun while Voyager 2 crossed it in August 2007 at about 84 AU. Both spacecraft are now exploring the Heliosheath.

The Heliosphere

The heliosphere is a bubble around the sun created by the outward flow of the solar wind from the sun and the opposing inward flow of the interstellar wind. That heliosphere is the region influenced by the dynamic properties of the sun that are carried in the solar wind--such as magnetic fields, energetic particles and solar wind plasma. The heliopause marks the end of the heliosphere and the beginning of interstellar space. Voyager 1, which is traveling up away from the plane of the planets, entered interstellar space on Aug. 25, 2012. Voyager 2, which is headed away from the sun beneath the plane of the planets, reached interstellar space on Nov. 5, 2018.

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At this moment, two spacecraft that were launched from Earth in 1977 hurtle through space at more than 30,000 mph (48,280 km/h). They are both several billion miles away, farther from Earth than any other man-made object. On Aug. 25, 2012, one of them crossed into interstellar space, making the first spacecraft to leave the solar system

Voyager 1 and 2 carry coded messages to potential alien civilizations. They have already taught scientists a great deal about the heliosheath , the outermost layer of the solar system. But none of this is even what they were designed for.

The Voyager spacecrafts were built to fly past the outer planets ( Jupiter , Saturn , Neptune and Uranus ) and study them closely, the first time in human history they'd been observed up close. The spacecraft succeeded magnificently, advancing planetary science by vast leaps. It was only after they’d accomplished their primary mission that they continued on to become Earth’s most far-ranging explorers.

Yet it was a matter of extremely good luck and timing that the missions were possible at all -- and an equal stroke of bad luck that almost scuttled the Voyager project before it ever left the ground. These ambitious missions were the product of new advances in the science and math of orbital trajectories, but they were almost cast by the wayside in favor of the expensive space shuttle program. Virtually every unmanned space mission undertaken today relies on knowledge and experience gained by the Voyagers.

We’ll take a close look at the ungainly Voyager space probes and all the technical equipment they carry on board. We’ll trace their trajectory from the development stages to their ultimate fate light years away from Earth. There will be stops at the largest planets in our solar system along the way. And if you’re wondering what's on the golden records each Voyager carries as messages for alien life forms, we’ll give them a spin. Will any aliens ever find them?

Voyager 1 and 2: The Grand Tour

Voyager equipment, to neptune and beyond, voyager golden record.

The 1970s were a transitional period for the U.S. space effort. The Apollo program was coming to a close, and NASA was trying to figure out what form manned spaceflight would take. The Mariner missions expanded our knowledge of the inner planets by sending space probes to fly past (and in some cases orbit) Mars , Venus and Mercury . There were tentative plans to send a Mariner mission to visit some of the outer planets, but using chemical rocket propulsion, such a trip would take 15 years or more.

At the same time, important advances were being made in the science of gravity-assisted orbital trajectories . While the math and physics involved are pretty complicated, the basic idea is that a spacecraft can use the gravity of a nearby planet to give it a large boost in velocity as long as the spacecraft follows the proper orbit. The higher the mass of the planet, the stronger the gravitational force, and the bigger the boost. That meant that once a space probe reached Jupiter (the most massive planet in our solar system ), it could use Jupiter’s gravity like a slingshot and head out to explore the more distant planets.

In 1965, an engineer named Gary Flandro noticed that in the mid-1970s, the outer planets would be aligned in such a way as to make it possible for a spacecraft to visit them all using a series of gravity-assisted boosts [source: Evans ]. This particular alignment wasn't just a once-in-a-lifetime event -- it wouldn't occur again for another 176 years. It was an amazing coincidence that the technical ability to accomplish such a mission was developed a few years before the planets lined up to allow it.

Initially, the ambitious project, known as the Grand Tour, would have sent a series of probes to visit all the outer planets. In 1972, however, budget projections for the project were approaching $900 million, and NASA was planning development of the space shuttle [source: Evans ]. With the immense shuttle development costs looming, the Grand Tour was cancelled and replaced with a more modest mission profile. This would be an extension of the Mariner program, referred to as the Mariner Jupiter-Saturn mission (MJS) . Based on the Mariner platform and improved with knowledge gained from Pioneer 10’s 1973 fly-by of Jupiter, the new probes eventually took the name Voyager. Design was completed in 1977. Optimistic NASA engineers thought they might be able to use gravity-assisted trajectories to reach Uranus and Neptune if the initial mission to visit Jupiter and Saturn (and some of their moons) was completed successfully. The idea of the Grand Tour flickered back to life.

The final Voyager mission plan looked like this: Two spacecraft (Voyager 1 and Voyager 2) would be launched a few weeks apart. Voyager 1 would fly past Jupiter and several of Jupiter’s moons from a relatively close distance, scanning and taking photos. Voyager 2 would also fly past Jupiter, but at a more conservative distance. If all went well, both probes would be catapulted toward Saturn by Jupiter’s gravity. Voyager 1 would then investigate Saturn, specifically the rings, as well as the moon Titan. At that point, Voyager 1’s trajectory would take it out of the solar system’s ecliptic (the plane of the planets’ orbits), away from all other planets, and eventually out of the solar system itself.

Meanwhile, Voyager 2 would visit Saturn and several of Saturn’s moons. If it was still functioning properly when that was completed, it would be boosted by Saturn’s gravity to visit Uranus and Neptune before also leaving the ecliptic and exiting the solar system. This was considered a long shot, but amazingly, everything worked as planned.

Next, what kind of hardware did the Voyagers carry into space?

Voyager 2 launched from Cape Canaveral, Fla., on board a Titan-Centaur rocket on Aug. 20, 1977. Voyager 1 launched on Sept. 5, 1977. Why is the numbering reversed? Once en route to the outer planets, Voyager 1 passed by Voyager 2 and reached Jupiter first. NASA thought the public would be confused if Voyager 2 started reporting back first, so the numbering doesn't follow the launch order.

Both Voyager spacecraft are identical. They don't have a sleek, aerodynamic design because there's no aerodynamic friction in space to worry about. Weighing 1,592 pounds (722 kilograms), they're made up of a main bus, a high-gain antenna, three booms that held scientific instruments and the power supply, and two other antennae.

The main bus is the body of the Voyager. It's a 10-sided box 5.9 feet (1.8 meters) across, and it contains some scientific instruments, electronics and a fuel tank for the rocket thrusters. The thrusters are used to reorient the craft as it moves through space.

Mounted on top of the main bus, the high-gain antenna is 12 feet (3.7 meters) across and looks like a satellite dish. This antenna is how the Voyagers receive commands from Earth and send the data they gather back. No matter where a Voyager spacecraft flies, the high-gain antenna always points toward Earth.

One of the booms extending off of the main bus carries Voyager’s radioisotope thermoelectric power supply . Pellets of plutonium dioxide release heat through natural decay. This heat is converted into electricity using a series of thermocouples. Although the power output isn't very strong, it powers the electronics and instruments on board the Voyagers for a very long time. Power isn't expected to deplete completely until 2020. The power supply was placed on a boom to keep the radiation from interfering with the other scientific instruments.

The other two booms carry a series of instruments. These include:

• Magnetometer
• Cosmic ray detector
• Plasma detector
• Photopolarimeter
• Infrared interferometer
• Spectrometer
• Ultraviolet spectrometer
• Low energy charged particle detector
• Plasma wave detector

[source: Evans, Dethloff & Schorn ]

Perhaps the most significant instruments on board the Voyagers, as far as the public is concerned, are the cameras. Also mounted on the instrument boom, the cameras have a resolution of 800x800, with both wide-angle and narrow-field versions. The cameras returned unprecedented photos of the outer planets and gave us views of our solar system that we had never before witnessed (including the famous departure shot showing both Earth and Earth’s moon in the same frame). The boom carrying the cameras could be moved independently from the rest of the craft.

The Voyager’s computer system was very impressive as well. Knowing the craft would be on its own much of the time, with the lag between command and response from Earth growing longer the farther the craft went into space, engineers developed a self-repairing computer system . The computer has multiple modules that compare the data they receive and the output instructions they decide on. If one module differs from the others, it's assumed to be faulty and is eliminated from the system, replaced by one of the backup modules. It was tested shortly after launch, when a delay in boom deployment was misread as a malfunction. The problem was corrected successfully.

In the next section, we’ll find out what we learned from the Voyager missions.

While the Voyagers themselves did all the data gathering, there were important mission elements on the ground as well. The Voyagers’ signals became increasingly difficult to detect as they flew out into the outer solar system, so NASA improved a worldwide network of radio receiving stations to better detect them. A series of 230-foot (70-meter) radio dishes pull in the Voyager data and send signals out to it, maintaining almost continuous communication [source: Evans ].

Although the lifetime mission cost for Voyager exceeded $750 million, by 1989 the spacecrafts had returned enough scientific data to fill 6,000 editions of the Encyclopedia Britannica [source: Evans ]. The science modules on board were chosen from proposals submitted by research teams across the United States. The information about Jupiter , Saturn , Uranus and Neptune (and many of their moons) that we learned from the Voyager missions wasn't just vast in quantity, but also in influence. It shaped science textbooks in schools across the U.S., informed public perceptions of the solar system and laid the foundation for the modern space program. Much of what we know about the outer planets came from Voyager. That’s not to mention the thousands of photographs taken from vantage points humans had never experienced before. Those brilliant images of Jupiter and Saturn fired the public’s imagination and fueled enthusiasm for future space exploration.

From Voyager, we learned more about the weather on Jupiter; the rings around Jupiter, Saturn and Uranus; volcanic activity on Jupiter's moon Io; the masses and densities of Saturn’s moons; the atmospheric pressure on Titan, Saturn's largest moon; the magnetic field of Uranus; and a persistent weather system on Neptune as large as Earth , known as the Great Dark Spot . By the time Voyager 2 reached Neptune, it was 1989. More than 10 years had passed since launch, and many of the scientists working on the original mission had moved on. Voyager had passed by Jupiter, Saturn and Uranus in 1979, 1981 and 1986, respectively.

So where are they now? The two Voyagers aren't together. Voyager 1 is moving north (relative to the orientation of Earth out of the solar system), while Voyager 2 is moving south. In 2007, they both entered the heliosheath, the outermost section of the solar system. There, the solar wind meets interstellar magnetic fields and forms a boundary with a shock wave. The Voyagers traversed the shock wave and sent data back, giving astronomers their first idea of the shape and location of the heliosheath. On Sept. 21, 2013, Voyager scientists reported that Voyager 1 left the solar system on Aug. 25, 2012.

Although some instruments on the Voyagers are no longer working, they do continue to send back important information. Imagine a car that has been on the road continuously since 1977, and you'll get some idea of how amazing these spacecraft are. At their current distance, it takes radio signals traveling at the speed of light more than 14 hours to reach Earth. The craft are running low on fuel for their orienting thrusters and will have to power down some instruments in the coming years as their plutonium runs out as well. By 2020, they will be dark and silent.

Yet they will continue on their current trajectory, moving over 30,000 mph (48,280 km/h), arcing out into the Milky Way for tens of thousands of years. With no atmosphere in space, they will never corrode, and there is little for them to crash into in interstellar space. It will take them about 40,000 years before they even come within light years of another star . The Voyagers may be traveling for hundreds of thousands or even millions of years.

What if the Voyagers meet an intelligent alien civilization some day? We’ve left a message for them.

When NASA realized that the Voyagers would eventually travel beyond the edge of our solar system , they decided it might be a good idea to include some kind of message to any intelligent aliens who might some day find them. A committee headed by astronomer Carl Sagan put these messages together. They're contained on gold-plated copper discs, which are engraved much like a vinyl record album. A portion of the disc contains audio information, including a variety of music, greetings spoken in 55 different languages (including some that are very obscure or long extinct) and a selection of nature sounds. The discs also include 122 images, encoded as vibrations on the disc with instructions for decoding.

On each disc’s cover plate are several symbols that depict the method of playing back the record (a stylus and mounting platter are included as well). The image decoding instructions are revealed, describing the “image start” signal, the aspect ratio of the images, and a reproduction of the first image, so the aliens would know if they got it right. A star map clearly showing the location of Earth completes the picture.

If the aliens wonder how long the Voyager they find has been traveling, they can examine the piece of uranium-238 attached to the main bus near the record. Examining the isotope ratios (assuming they know the half-life of uranium-238), they could then deduce how long the sample had been in space.

What music will the aliens hear when they play the record? Mostly traditional music from a variety of cultures, such as Native Americans chants, Scottish bagpipes and African ritual music. It is also something of a “greatest hits” collection of classical music. The most contemporary songs are “Johnny B. Goode” by Chuck Berry and a jazz number by Louis Armstrong.

The images on the record are varied, and include maps of Earth, images of the other planets in our solar system, pictures of various animals and several images of humans. Carl Sagan wrote a book about the record, called "Murmurs of Earth." A companion CD-ROM was released decades later.

The Voyager discs are similar to a plaque that was placed aboard Pioneer 10 and Pioneer 11, although the creators of the Voyager discs spent a lot of time making sure the aliens could decode it. Many Earth scientists could not decode the information on the Pioneer plaque. At the time, some voiced concerns that any hostile aliens finding the Voyager disc would have a map leading them directly to Earth. However, the Voyagers will spend tens of thousands of years in interstellar space before they are anywhere near another star, so the matter isn’t really an immediate concern. If the discs are ever found, it may be so far in the future that humans no longer exist.

For more interesting articles about space exploration, try the next page.

In "Star Trek: The Motion Picture" (the first Star Trek film), much of the plot revolved around a strange electronic life form known as V’Ger. By the end of the film, it is revealed that V’Ger is one of the Voyager space probes (Voyager 6, which never existed in the real world) that has either gained sentience on its own or been given sentience by an alien race. It wants to eradicate all of humanity, but instead evolves into yet another form of life.

Within the fictional Star Trek universe, there is some dispute as to V’Ger’s place in Trek history. Some suggest that V’Ger created the Borg, a cold, logical alien race that would become the primary villains in "Star Trek: The Next Generation." Others think the Borg encountered V’Ger, but that the cyborg aliens existed before the chance meeting.

Voyager Space FAQ

What is the temperature of interstellar space, how far away is voyager 2, how far away is voyager 1, do the voyagers have a camera, what is the difference between voyager 1 and 2, lots more information, related articles.

• Are we not the only Earth out there?
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• How Fixing the Hubble Spacecraft Works
• How Project Mercury Worked
• How Spaceports Will Work
• How Aliens Work

More Great Links

• Voyager Web site
• Evans, Ben. "NASA's Voyager Missions: Exploring the Outer Solar System and Beyond." Springer; 1st ed 2004. 2nd printing edition (April 15, 2008).
• Dethloff, Henry C & Schorn, Ronald A. "Voyager's Grand Tour: To the Outer Planets and Beyond." Smithsonian (March 17, 2003).
• NASA. “Voyager 2 Proves Solar System Is Squashed.” http://voyager.jpl.nasa.gov/

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