What do all these Hubble images have in common?

They show the aftermath of stars that died in a bright, powerful explosion known as a supernova.

In a supernova, a star’s contents fling out into space at speeds of up to 25,000 miles (15,000 to 40,000 km) per second!

These supernova remnants are made of material from the exploded star and any interstellar material it sweeps up in its path. Read more about supernova remnants and other types of nebulae

Check out NASA Universe for more supernova content all week!

#nasa #hubble #supernova #stars #space #science #astronomy #astrophotography #nebula #universe

What do all these Hubble images have in common?

They show the aftermath of stars that died in a bright, powerful explosion known as a supernova.

In a supernova, a star’s contents fling out into space at speeds of up to 25,000 miles (15,000 to 40,000 km) per second!

These supernova remnants are made of material from the exploded star and any interstellar material it sweeps up in its path. Read more about supernova remnants and other types of nebulae

Check out NASA Universe for more supernova content all week!

#nasa #hubble #supernova #stars #space #science #astronomy #astrophotography #nebula #universe

What do all these Hubble images have in common?

They show the aftermath of stars that died in a bright, powerful explosion known as a supernova.

In a supernova, a star’s contents fling out into space at speeds of up to 25,000 miles (15,000 to 40,000 km) per second!

These supernova remnants are made of material from the exploded star and any interstellar material it sweeps up in its path. Read more about supernova remnants and other types of nebulae

Check out NASA Universe for more supernova content all week!

#nasa #hubble #supernova #stars #space #science #astronomy #astrophotography #nebula #universe

What do all these Hubble images have in common?

They show the aftermath of stars that died in a bright, powerful explosion known as a supernova.

In a supernova, a star’s contents fling out into space at speeds of up to 25,000 miles (15,000 to 40,000 km) per second!

These supernova remnants are made of material from the exploded star and any interstellar material it sweeps up in its path. Read more about supernova remnants and other types of nebulae

Check out NASA Universe for more supernova content all week!

#nasa #hubble #supernova #stars #space #science #astronomy #astrophotography #nebula #universe

Cosmic contortions!

This #hubblefriday image shows a collection of galaxies and stars, including a bright cluster near the center that appears to be "stretching" nearby galaxies into arcs.

The cluster is acting as a gravitational lens. Its powerful gravitational field distorts and magnifies light coming from background objects!

Image credit: ESA/Hubble & NASA, H. Ebeling

#nasa #hubble #friday #galaxy #space #science #astronomy #astrophotography #cosmos

A butterfly in the stars 🦋

This #hubbleclassic image of the Butterfly Nebula shows layers of gas being ejected from a Sun-like star that has exhausted its nuclear fuel. The gas is heated to more than 36,000 degrees Fahrenheit and is moving across space at more than 600,000 miles an hour.

Eventually this stunning planetary nebula will fade and leave behind a stellar corpse known as a white dwarf in its place. In the constellation Scorpius, this nebula is about 4,000 light-years away.

Image credit: A. Zijlstra (UMIST) et al., ESA, NASA

#nasa #hubble #classic #butterfly #nebula #space #science #astronomy #universe

Warped tour…of space? ✨

See those strange arcs and streaks in this new Webb image? They’re actually distant galaxies, magnified and warped due to an effect called gravitational lensing.

This effect occurs when an object — here, a foreground galaxy cluster — has such a massive gravitational pull that it warps time and space around it. Light follows that bend instead of traveling in a straight line, distorting and brightening what’s behind the object.

Because it magnifies distant objects that would otherwise be too faint or far away, gravitational lensing is a useful tool for astronomers. One example in this image is a galaxy known as the Cosmic Seahorse, seen as a long distorted arc in the lower right quadrant. Its brightness is greatly magnified by the gravitational lens, allowing astronomers to study star formation there.

Credit: ESA/Webb, NASA & CSA, J. Rigby

#universe #nasa #jwst #webb

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