Skip to main content

Hubble captures a galaxy zooming away from us at 1,000 miles a second

A new image from the Hubble Space Telescope released on Monday, July 6, shows the beautiful galaxy NGC 7513, nicknamed the Sculpted Galaxy by Hubble scientists because of its location in the Sculptor constellation. Located 60 million light-years away, the galaxy is on the move — and at a considerable speed.

“This galaxy is moving at the astounding speed of 1,564 kilometers [972 miles] per second, and it is heading away from us,” Hubble scientists wrote. “For context, the Earth orbits the sun at about 30 kilometers [19 miles] per second. Though NGC 7513’s apparent movement away from the Milky Way might seem strange, it is not that unusual.

“While some galaxies, like the Milky Way and the Andromeda galaxy, are caught in each other’s gravitational pull and will eventually merge together, the vast majority of galaxies in our universe appear to be moving away from each other. This phenomenon is due to the expansion of the universe, and it is the space between galaxies that is stretching, rather than the galaxies themselves moving.”

NGC 7513, a barred spiral galaxy
Captured by the NASA/ESA Hubble Space Telescope, this image shows NGC 7513, a barred spiral galaxy. Located approximately 60 million light-years away, NGC 7513 lies within the Sculptor constellation in the southern hemisphere. ESA/Hubble & NASA, M. Stiavelli

The rate of the expansion of the universe was one of the biggest findings from the 30-year history of the Hubble Space Telescope. The scientist the telescope is named after, Edwin Hubble, showed that the universe was expanding in the 1920s, and calculated this rate in a figure called the Hubble constant by using data from ground-based telescopes. By the time the Hubble Space Telescope was launched in 1990, scientists knew that the universe was expanding but did not agree at what speed.

To more precisely determine the Hubble constant, scientists needed more accurate tools to measure the way the light from distant galaxies was shifted. As a space-based telescope, the Hubble Space Telescope can take precise measurements of distant galaxies because it does not have to look through Earth’s atmosphere.

With more precise data from Hubble, scientists were able to determine how fast the universe was expanding and therefore calculate the age of the universe. Before Hubble, scientists thought the universe could be anywhere between 9.7 billion years old and 19.5 billion years old. Using the telescope, they determined that the universe is approximately 13.7 billion years old and the Hubble constant is 67.4 kilometers (42 miles) per second per megaparsec — although this figure continues to be refined over time.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
Hubble image shows a lonely star glowing over an irregular background galaxy
The bright star BD+17 2217. Arp 263 – also known as NGC 3239 in the foreground and irregular galaxy Arp 263 in the background.

This week's image from the Hubble Space Telescope is notable for the way it was composed as much as for the object it shows. Composed of two different exposures which have been merged, it shows the star BD+17 2217 shining over the background irregular galaxy Arp 263.

Irregular galaxies are those with irregular structures, unlike elliptical galaxies or spiral galaxies such as our Milky Way. Arp 263 is patchy and cloudy, with some areas glowing brightly due to star formation while other areas appear practically bare. Such galaxies are typically formed due to interactions with other galaxies, which can occur when a massive galaxy passes by and pulls the original galaxy out of shape. In the case of Arp 263, it is thought that it developed its irregular shape when two galaxies merged.

Read more
One galaxy, two views: see a comparison of images from Hubble and Webb
The peculiar galaxy NGC 3256 takes centre stage in this image from the NASA/ESA Hubble Space Telescope. This distorted galaxy is the wreckage of a head-on collision between two spiral galaxies which likely occurred 500 million years ago, and it is studded with clumps of young stars which were formed as gas and dust from the two galaxies collided.

It might not seem obvious why astronomers need multiple different powerful space telescopes. Surely a more powerful telescope is better than a less powerful one? So why are there multiple different telescopes in orbit, either around Earth or around the sun?

The answer is to do with two main factors. One is the telescope's field of view, meaning how much of the sky it looks at. Some telescopes are useful for looking at large areas of the sky in less detail, working as survey telescopes to identify objects for further research or to look at the universe on a large scale -- like the recently launched Euclid mission. While others, like the Hubble Space Telescope, look at small areas of the sky in great detail, which is useful for studying particular objects.

Read more
Hubble image of the week shows an unusual jellyfish galaxy
The jellyfish galaxy JO206 trails across this image from the NASA/ESA Hubble Space Telescope, showcasing a colorful star-forming disk surrounded by a pale, luminous cloud of dust. A handful of foreground bright stars with crisscross diffraction spikes stands out against an inky black backdrop at the bottom of the image. JO206 lies over 700 million light-years from Earth in the constellation Aquarius.

This week's image from the Hubble Space Telescope shows an unusual type of galaxy named for its aquatic look-alike: a jellyfish.

The jellyfish galaxy JO206 is shown below in an image taken using Hubble's Wide Field Camera 3 instrument. Located 700 million light-years away, in the constellation of Aquarius, this image of the galaxy shows both the bright center of the galaxy and its long tendrils reaching out toward the bottom right. It is these tendrils that give jellyfish galaxies their names, and they are formed through a process called ram pressure stripping.

Read more