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Our Sun lies 93,000,000 miles away, surrounded by the vacuum of space. Sound won't travel through space, of course. But with the right instrument, scientists can "hear" pulsations from the Sun.

The entire Sun vibrates from a complex pattern of acoustical waves, much like a bell. If your eyes were sharp enough, you could see a bell's surface jiggle in complex patterns as the waves bounced around within it.

Likewise, astronomers at Stanford University can record acoustical pressure waves in the Sun by carefully tracking movements on the Sun's surface. To do this, they use an instrument called a Michelson Doppler Imager (MDI), mounted on the SOHO spacecraft, circling the Sun 1,000,000 miles from Earth.

The Sun's acoustical waves bounce from one side of the Sun to the other in about two hours, causing the Sun's surface to oscillate, or wiggle up and down. Because these sound waves travel underneath the Sun's surface, they are influenced by conditions inside the Sun. So scientists can use the oscillations to learn more about how the structure of the Sun's interior shapes its surface.

The Sun's sound waves are normally at frequencies too low for the human ear to hear. To be able to hear them, the scientists sped up the waves 42,000 times -- and compressed 40 days of vibrations into a few seconds. What you'll be hearing are just a few dozen of the 10 million resonances echoing inside the Sun.

Credit: NASA / Stanford University 
Asteroseismology is letting us measure distant planetary systems with sunlike stars. How? By measuring the way a star "breathes" in response to its on internal music.
Christopher Carr's profile photoNobilangelo Ceramalus's profile photoBrian Geniesse (B)'s profile photo
"Sound won't travel through space, of course."

" said that if it were not thus, the roaring of the suns would deafen the universe."  -- Gene Wolfe 
Job chapter 38 verse 7 in  the Bible was there thousands of years ago: 'the morning stars sang together.'
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