Science
James Webb Space Telescope Launched Successfully, Sets Off on Million-Mile Voyage – Gadgets 360
The world’s most powerful space telescope on Saturday blasted off into orbit, headed to an outpost 1.5 million kilometres (930,000 miles) from Earth, after several delays caused by technical hitches.
The James Webb Space Telescope, some three decades and billions of dollars in the making, left Earth enclosed in its Ariane 5 rocket from Kourou Space Centre in French Guiana.
“What an amazing day. It’s truly Christmas,” said Thomas Zurbuchen, head of scientific missions for NASA, which together with the European and Canadian space agencies, ESA and ACS, built the telescope.
ESA chief Josef Aschbacher said he was “very happy to say that we’ve delivered the spacecraft into orbit very precisely… that Ariane 5 performed extremely well”.
This was key, since placing the spacecraft in orbit helps economise on the fuel the telescope will need to reach its final destination and perform well after that.
It is expected to take a month to reach its remote destination.
It is set to beam back new clues that will help scientists understand more about the origins of the Universe and Earth-like planets beyond our solar system.
Named after a former NASA director, Webb follows in the footsteps of the legendary Hubble — but intends to show humans what the Universe looked like even closer to its birth nearly 14 billion years ago.
Speaking on social media, Webb project co-founder John Mather described the telescope’s unprecedented sensitivity.
“#JWST can see the heat signature of a bumblebee at the distance of the Moon,” he said.
All that power is needed to detect the weak glow emitted billions of years ago by the very first galaxies to exist and the first stars being formed.
US President Joe Biden congratulated NASA and the Webb team for the launch, saying on Twitter the telescope “is a shining example of the power of what we can accomplish when we dream big.”
‘Exceptional measures’
The telescope is unequalled in size and complexity.
Its mirror measures 6.5 metres (21 feet) in diameter — three times the size of the Hubble’s mirror — and is made of 18 hexagonal sections.
It is so large that it had to be folded to fit into the rocket.
That manoeuvre was laser-guided with NASA imposing strict isolation measures to limit any contact with the telescope’s mirrors from particles or even human breath.
Once the rockets have carried Webb 120 kilometres, the protective nose of the craft, called a “fairing”, will be shed to lighten the load.
To protect the delicate instrument from changes in pressure at that stage, rocket-builder Arianespace installed a custom decompression system.
“Exceptional measures for an exceptional client,” said a European Space Agency official in Kourou on Thursday.
Once it reaches its station, the challenge will be to fully deploy the mirror and a tennis-court-sized sun shield.
That intimidatingly complex process will take two weeks and must be flawless if Webb is to function correctly.
Its orbit will be much farther than Hubble, which has been 600 kilometres above the Earth since 1990.
The location of Webb’s orbit is called the Lagrange 2 point and was chosen in part because it will keep the Earth, the Sun and the Moon all on the same side of its sun shield.
Webb is expected to officially enter service in June.
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April 23 (UPI) — SpaceX launched 23 Starlink satellites into low-Earth orbit Tuesday evening from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida.
Liftoff occurred at 6:17 EDT with a SpaceX Falcon 9 rocket sending the payload of 23 Starlink satellites into orbit.
The Falcon 9 rocket’s first-stage booster landed on an autonomous drone ship in the Atlantic Ocean after separating from the rocket’s second stage and its payload.
The entire mission was scheduled to take about an hour and 5 minutes to complete from launch to satellite deployment.
The mission was the ninth flight for the first-stage booster that previously completed five Starlink satellite-deployment missions and three other missions.
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Voyager 1 has finally returned usable data to NASA from outside the solar system after five months offline.
Launched in 1977 and now in its 46th year, the probe has been suffering from communication issues since November 14. The same thing also happened in 2022. However, this week, NASA said that engineers were finally able to get usable data about the health and status of its onboard engineering systems.
Slow Work
Fixing Voyager 1 has been slow work. It’s currently over 15 billion miles (24 billion kilometers) from Earth, which means a radio message takes about 22.5 hours to reach it—and the same again to receive an answer.
The problem appears to have been its flight data subsystem, one of one of the spacecraft’s three onboard computers. Its job is to package the science and engineering data before it’s sent to Earth. Since the computer chip that stores its memory and some of its code is broken, engineers had to re-insert that code into a new location.
Next up for engineers at NASA’s Jet Propulsion Laboratory in California is to adjust other parts of the FDS software so Voyager 1 can return to sending science data.
Beyond The ‘Heliopause’
The longest-running and most distant spacecraft in history, Voyager 1, was launched on September 5, 1977, while its twin spacecraft, Voyager 2, was launched a little earlier on August 20, 1977. Voyager 2—now 12 billion miles away and traveling more slowly—continues to operate normally.
Both are now beyond what astronomers call the heliopause—a protective bubble of particles and magnetic fields created by the sun, which is thought to represent the sun’s farthest influence. Voyager 1 got to the heliopause in 2012 and Voyager 2 in 2018.
The Pale Blue Dot is a photograph of Earth taken Feb. 14, 1990, by NASA’s Voyager 1 at a distance of … [+]
NASA/JPL-Caltech
Pale Blue Dot
Since their launch from Cape Canaveral, Florida, aboard Titan-Centaur rockets, Voyager 1 and Voyager 2 have had glittering careers. Both photographed Jupiter and Saturn in 1979 and 1980 before going their separate ways. Voyager 1 could have visited Pluto, but that was sacrificed so scientists could get images of Saturn’s moon, Titan, a maneuver that made it impossible for it to reach any other body in the solar system. Meanwhile, Voyager 2 took slingshots around the planets to also image Uranus in 1986 and Neptune in 1989—the only spacecraft ever to image the two outer planets.
On February 14, 1990, when 3.7 billion miles from Earth, Voyager 1 turned its cameras back towards the sun and took an image that included our planet as “a mote of dust suspended in a sunbeam.” Known as the “Pale Blue Dot,” it’s one of the most famous photos ever taken. It was remastered in 2019.
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CAPE CANAVERAL, Fla. (AP) – NASA has finally heard back from Voyager 1 again in a way that makes sense.
The most distant spacecraft from Earth stopped sending back understandable data last November. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft’s coding to work around the trouble.
NASA’s Jet Propulsion Laboratory in Southern California declared success after receiving good engineering updates late last week. The team is still working to restore transmission of the science data.
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip.
Contact was never lost, rather it was like making a phone call where you can’t hear the person on the other end, a JPL spokeswoman said Tuesday.
Launched in 1977 to study Jupiter and Saturn, Voyager 1 has been exploring interstellar space – the space between star systems – since 2012. Its twin, Voyager 2, is 12.6 billion miles (20 billion kilometers) away and still working fine.
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