Hubble is back! NASA’s space telescope returns to full service

NASA’s Hubble Space Telescope has returned to normal operations.

NASA said it completed its first science observations on Saturday, Oct. 27 at 2:10 AM EDT. 

The observations were of the distant, star-forming galaxy DSF2237B-1-IR and were taken in infrared wavelengths with the Wide Field Camera 3 instrument. 


The Hubble telescope (pictured) was launched in 1990 and Nasa hope it will remain operational into the 2020s. It studies visible and near UV light and there is no clear successor lined up to replace it. It malfunctioned and went into ‘sleep mode earlier this week


A wheel inside the gyro spins at a constant rate of 19,200 revolutions per minute. 

This wheel is mounted in a sealed cylinder, called a float, which is suspended in a thick fluid. 

Electricity is carried to the motor by thin wires, approximately the size of a human hair, that are immersed in the fluid. 

Electronics within the gyro detect very small movements of the axis of the wheel and communicate this information to Hubble’s central computer. 

These gyros have two modes — high and low. 

High mode is a coarse mode used to measure large rotation rates when the spacecraft turns across the sky from one target to the next. 

Low mode is a precision mode used to measure finer rotations when the spacecraft locks onto a target and needs to stay very still. 

The return to conducting science comes after successfully recovering a backup gyroscope, or gyro, that had replaced a failed gyro three weeks earlier. 

The telescope switched on a backup gyro after it entered safe mode due to a failed gyro on Friday, Oct. 5.  

However, the gyro began to rotate at an alarming rate, so NASA was unable to switch the scope back on. 

To fix it, NASA went with a tried and tested IT support technique – switching it off and on again. 

The Hubble operations team turned the gyro off for one second, and then restarted it before the wheel spun down. 

They then commanded a series of spacecraft maneuvers, or turns, in opposite directions to attempt to clear any blockage that may have caused the float to be off-center and produce the exceedingly high rates. 

During each maneuver, the gyro was switched from high mode to low mode to dislodge any blockage that may have accumulated around the float.

Following the Oct. 18 maneuvers, the team noticed a significant reduction in the high rates, allowing rates to be measured in low mode for brief periods of time 

‘The rotation rates produced by the backup gyro have since reduced and are now within an expected range,’ NASA said.

Additional tests will be performed to ensure Hubble can return to science operations with this gyro.

It comes as Earth’s most powerful telescopes are beginning to show the strain of decades of use and may soon stop working completely.

Astronomical observatories such as Hubble and Chandra were launched into orbit several years ago and have provided us with stunning images and precious data ever since.

These wondrous machines, that have been invaluable in the advancement of modern science, are deteriorating with age and Nasa has no plan in place to replace the ailing technology.

They were developed to help map distant galaxies, peer into black holes and locate new planets but astronomers fear their eyes in the sky may soon go dark. 

‘The unwillingness to invest in substantial science has begun to worry us,’ astrophysicist Matt Mountain, president of the Association of Universities for Research in Astronomy, which operates the Hubble telescope on behalf of NASA, told The Washington Post.

‘We’re facing a very daunting prospect as a community. Some fields just won’t have a telescope. And the science will not be possible to do in any other way.’


The Hubble telescope was launched on April 24, 1990, via the space shuttle Discovery from Kennedy Space Centre in Florida.

It is named after famed astronomer Edwin Hubble who was born in Missouri in 1889.

He is arguably most famous for discovering that the universe is expanding and the rate at which is does so – now coined the Hubble constant. 

Hubble has made more than 1.3 million observations since its mission began in 1990 and helped publish more than 15,000 scientific papers.

The Hubble telescope is named after Edwin Hubble who was responsible for coming up with the Hubble constant and is one of the greatest astronomers of all-time

The Hubble telescope is named after Edwin Hubble who was responsible for coming up with the Hubble constant and is one of the greatest astronomers of all-time

It orbits Earth at a speed of about 17,000 mph in low Earth orbit at about 340 miles in altitude.

Hubble has the pointing accuracy of .007 arc seconds, which is like being able to shine a laser beam focused on Franklin D. Roosevelt’s head on a dime roughly 200 miles away.

Hubble’s primary mirror is 2.4 meters (7 feet, 10.5 inches) across and in total is 13.3 meters (43.5 feet) long – the length of a large school bus.

Funding for successors to these marquee telescopes has yet to be secured and Paul Hertz, the astrophysics division director at Nasa said it is a ‘choice for the nation’.

‘What missions we do will be influenced by priorities of the community as well as the funding choices made by the political system,’ he added.  

Hubble was launched in 1990 and earlier this month it malfunctioned, halting its work and reinforced to the scientists that are totally dependent on the 28-year-old machine just how reliant they are on technology first designed in the 1970s. 

The Chandra X-ray telescope is now in its 20th year of operation and has surpassed its projected operational lifespan by nearly 15 years. 

Chandra automatically went into so-called safe mode earlier this month, because of a gyroscope problem. 

‘The cause of Chandra’s safe mode on October 10 has now been understood and the Operations team has successfully returned the spacecraft to its normal pointing mode,’ Nasa said.

It claimed the safe mode was caused by a glitch in one of Chandra’s gyroscopes resulting in a three-second period of bad data that in turn led the on-board computer to calculate an incorrect value for the spacecraft momentum. 

The erroneous momentum indication then triggered the safe mode.

‘The team has completed plans to switch gyroscopes and place the gyroscope that experienced the glitch in reserve,’ Nasa said.

Hubble went into hibernation due to a similar gyroscope failure.

Nasa claims the issues with Chandra have now been resolved but it remains low on fuel and it it is unclear how long it will remain functional.

The Space agency says it’s coincidental both Chandra and Hubble went ‘asleep’ within a week of one another. 

It ‘continues to work toward resuming science operations of the Hubble Space Telescope after the spacecraft entered safe mode due to a failed gyroscope (gyro).’

An astronomer who works on Chandra, Jonathan McDowell of the Harvard-Smithsonian Center for Astrophysics, tweeted Friday that ‘Chandra decided that if Hubble could have a little vacation, it wanted one, too.’  

The political behemoth in the US provided Nasa with ample resources and financial support to launch and sustain the Great Observatory programme in the 1970s. 

The Chandra X-ray telescope (pictured) is now in its 20th year of operation and has surpassed its projected operational lifespan by nearly 15 years

The Chandra X-ray telescope (pictured) is now in its 20th year of operation and has surpassed its projected operational lifespan by nearly 15 years

Four telescopes were designed and built that would measure the entire spectrum of light from Gamma rays (Compton Gamma Ray Observatory) to infrared radiation (the Spitzer Space Telescope). 

The other two telescopes in this programme  – Hubble and Chandra – analyse visible/near ultra-violet light and X-rays, respectively.    

Between them they would find and help unpick the mysteries behind the most energetic explosions in the universe, black holes, exoplanets, newborn stars and discovering the age of the universe. 

Compton perished in 2001 after a gyroscope issue rendered it useless and Spitzer is expected to die next year. 

Nasa expects both remaining telescopes to continue working into the 2020s.

‘People suddenly realised that Hubble is not going to live forever,’ said Tom Brown, the Hubble mission head at the Space Telescope Science Institute. 

When Hubble does fail, there will be no visible or ultraviolet telescopes at that scale.

This, Dr Brown says, is leading scientists to wonder what happens next. 

The James Webb telescope will study infrared radiation in space but has been beleaguered with delays and errors that has seen the launch date pushed back to 2021. 

As with the visible light spectrum, there are no plans from Nasa to replace Chandra and further study the X-ray wavelength of light. 

Gamma ray astrophysicist Julie McInery, the project scientist for Fermi, the smaller successor to Compton, said: ‘You have to have a minimal level of activity in any given telescope area to maintain expertise in the community so you can continue to build instruments.’