Stellar encore: Dying star keeps coming back big time

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By MARCIA DUNN, AP Aerospace Writer

CAPE CANAVERAL, Fla. (AP) — Death definitely becomes this star.

Astronomers reported Wednesday on a massive, distant star that exploded in 2014 — and also, apparently back in 1954. This is one supernova that refuses to bite the cosmic dust, confounding scientists who thought they knew how dying stars ticked.

The oft-erupting star is 500 million light-years away — one light-year is equal to 5.9 trillion miles (9.5 trillion kilometers) — in the direction of the Big Bear constellation. It was discovered in 2014 and, at the time, resembled your basic supernova that was getting fainter.

But a few months later, astronomers at the California-based Las Cumbres Observatory saw it getting brighter. They've seen it grow faint, then bright, then faint again five times. They've even found past evidence of an explosion 60 years earlier at the same spot.

Supernovas typically fade over 100 days. This one is still going strong after 1,000 days, although it's gradually fading.

The finding was published Wednesday in the journal Nature .
 

"It's very surprising and very exciting," said astrophysicist Iair Arcavi of the University of California, Santa Barbara who led the study. "We thought we've seen everything there is to see in supernovae after seeing so many of them, but you always get surprised by the universe. This one just really blew away everything we thought we understood about them."

The supernova — officially known as iPTF14hls — is believed to have once been a star up to 100 times more massive than our sun. It could well be the biggest stellar explosion ever observed, which might explain its death-defying peculiarity.

It could be multiple explosions occurring so frequently that they run into one another or perhaps a single explosion that repeatedly gets brighter and fainter, though scientists don't know exactly how this happens.

One possibility is that this star was so massive, and its core so hot, that an explosion blew away the outer layers and left the center intact enough to repeat the entire process. But this pulsating star theory still doesn't explain everything about this supernova, Arcavi said.

Harvard University's astronomy chairman, Avi Loeb, who was not involved in the study, speculates a black hole or magnetar — a neutron star with a strong magnetic field — might be at the center of this never-before-seen behavior. Further monitoring may better explain what's going on, he said.

Las Cumbres , a global network of robotic telescopes, continues to keep watch.

Scientists do not know whether this particular supernova is unique; it appears rare since no others have been detected.

"We could actually have missed plenty of them because it kind of masquerades as a normal supernova if you only look at it once," Arcavi said.

Nothing lasts forever — not even this super supernova.

"Eventually, this star will go out at some point," Arcavi said. "I mean, energy has to run out eventually."

Apollo 12 astronaut Richard Gordon, who circled moon, dies

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WASHINGTON (AP) — Apollo 12 astronaut Richard "Dick" F. Gordon Jr., one of a dozen men who flew around the moon but didn't land there, has died, NASA said. He was 88.

Gordon was a test pilot when he was chosen for NASA's third group of astronauts in 1963. He flew on Gemini 11 in 1966, walking in space twice. In 1969, Gordon circled the moon in the Apollo 12 command module Yankee Clipper while crewmates Alan Bean and Charles Conrad landed and walked on the lunar surface.

Over the two flights, he spent nearly 316 hours in space.

"Dick will be fondly remembered as one of our nation's boldest flyers, a man who added to our own nation's capabilities by challenging his own. He will be missed," acting NASA administrator Robert Lightfoot said in a statement Tuesday.

Gordon died Monday at his home in San Marcos, California, according to the Astronaut Scholarship Foundation.

Born in Seattle, a Navy captain and a chemist, Gordon was such a steely professional that after a difficult first spacewalk, he fell asleep during a break in his second spacewalk. He downplayed Apollo 12 being hit by lightning during liftoff; backup batteries saved the crew from having to abort the mission.

"He's a cool guy," Bean recalled Tuesday. "He's the kind of guy you want when you go to the moon."
In a 1997 NASA oral history, Gordon said people would often ask if he felt alone while his two partners walked on the moon.  "I said, 'Hell no, if you knew those guys, you'd be happy to be alone'."

Gordon called that experience wonderful: "You don't have to communicate. You don't have to worry about pleasing anyone beside yourself. And there's a lot of things that you have to do and accomplish. And it's a moment of solitude."

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Gordon and Bean described the second moon landing as a mission full of antics and dust.

When Conrad and Bean left the moon and docked their lunar module, Gordon said he looked in and "all I could see was a black cloud in there. I didn't see them at all. I looked in there and said, 'Holy smoke. You're not getting in here and dirtying up my nice clean Command Module.'  So they passed the rocks over, took off their suits and underwear, and I said, 'OK, you can come in now'."

Gordon had been slated to command the Apollo 18 mission that would land on the moon, but it was cut for budget reasons. Apollo 17 was the last mission to the moon. In all, 24 Americans flew to the moon and 12 landed on it.

While in the Navy as a test pilot, Gordon won the Bendix Trophy Race from Los Angeles to New York in 1961, setting a speed record of 869.74 miles per hour.

Gordon was the instant leader of a star-studded class of 14 astronauts that included Apollo 11's Buzz Aldrin and Michael Collins and the last man on the moon, Eugene Cernan, Bean recalled.

"He was a happy guy and just the best possible crewmate and friend," he said.

During his first Gemini 11 spacewalk, Gordon said he and crewmate Conrad "were so jacked up" that they were ready an hour early. When it came time to put on his helmet, it wouldn't fit. After much effort and lost time, he got it on, but was exhausted and behind schedule.

"I was perspiring," he later recalled. "My eyes were stinging ... they decided to quit."

His second spacewalk was so calm that he and Conrad caught themselves falling asleep.

"It was nice and warm and cuddly," Gordon said.

After retiring from NASA in 1972, he became executive vice president of the New Orleans Saints football team. He went on to be an executive in energy and science companies.

Gordon is survived by six children, two stepchildren, and five grandchildren.

The Mysterious Ringing Rocks

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This is rock music. Literally.

These chime-like sounds come from geological phenomena known as ringing rocks. Physically, they look no different from regular rocks, but it's not until you lightly strike them with a hammer that the rocks reveal their sonic secret.

Also known as sonorous rocks, these audio boulders can be found in various locations inside the 128-acre Ringing Rocks Park in Southeastern Pennsylvania, including Stony Garden in Bucks County, Devil's Race Course in Franklin, and Pottstown in Montgomery.

The most famous among visitors is located in Upper Black Eddy near the Delaware River. Framed by a lush forest and a majestic waterfall, the site features a vast eight-acre field of ringing rocks, with some stacked as high as 10-feet. 

It was here that Dr. J. J. Ott performed for the Buckwampum Historical Society in June 1890, for what is probably the first rock concert in history.

According to Natural History Magazine, Ott "played several musical selections" while accompanied by a brass band. The performance highlighted the natural musicality of the rocks which he assembled into an octave scale.

Since Ott's performance, the site has attracted other musicians looking to compose one-of-a-kind soundscapes using the ringing rocks. Like instrumental percussionist group, Square Peg Round Hole, who recorded an original song using rocks they selected for their similar tonal qualities as their instruments.

Recordists like Philadelphia-based Thomas Rex Beverly also visit the park to take audio recordings of the rocks. He observed that changes in the environment also changed the sound of the rocks. Which means what the rocks sound in summer, isn't the same as they do in winter when layers of snow surround the rocks. The amount of snow also creates significant changes in the pitch of the rocks.

But a more interesting discovery is that, while only 30% of the rocks ring, they generally ring in the tone of B flat. Now, why is that more interesting than finding out the sound produced by the rocks are ultimately site specific, existing in synergy with its surroundings, wherein any incremental change can dramatically affect its acoustics, you might ask? Because B flat is what a supermassive black hole sounds like.

Back in 2003, NASA's Chandra X-Ray Observatory detected sound waves are coming from a black hole 250 million light years away from Earth. It turns out, it's been humming a B flat that's 57 octaves below middle C for close to 2.5 billion years.

It's out of this world tidbits like this, so to speak, that fuel the wild urban legends surrounding the origins and mechanisms of the ringing rocks. So in 1965 geologist Richard Faas performed numerous lab tests on the rocks to find out if there's a connection between the physical make up of the rocks and their ability to create sound.

What Faas found was an explanation to one of the most widely claimed myths about the ringing rocks. Unlike the stories, the rocks don't lose their ability to make sounds when taken out of the boulder field. They still produce a series of low-frequency sounds, which remain inaudible to the human ears until it's layered with similar low-frequency sounds coming from other ringing rocks. 

But while he was able to debunk one myth, Faas still wasn't able to identify the specific physical evidence that would explain why the rocks ring. So instead of getting answers, all he raised are more questions.

Like, if the rocks were all made from diabase, a volcanic basalt that's high in iron and aluminium content, then why do only a few of the rocks ring? Why aren't the rocks in nearby areas of the field ring as well? And since diabase is the same substance as that of the Earth's crust, does this mean that the Earth is one giant bell?

And how did the boulders even get there in the first place? One theory suggests that when the supercontinent Pangaea shifted some 300 years ago, it caused mountains to erode and the sediments to settle in nearby valleys.

Magma worked its way up to the surface, depositing large amounts of diabase into the soil in the process. Scientists believe that the boulders were created from what they call the freeze-thaw cycle.

Where the water that's permeated the hardened mixture of magma and sediments goes into a loop of freezing and melting, which eventually split the giant rock formation into individual boulders.

This would make for a very satisfying explanation into the mystery of the ringing rocks, if only (1) there were volcanoes in Pennsylvania, and (2) well if it actually cracked its mystery.

But because even extensive scientific studies couldn't provide a definitive explanation on why the rocks ring, speculations of the more peculiar variety abound.

Some think the ringing rocks are surrounded by a bizarre magnetic field, rendering compasses unusable. It's also rumoured to be an ancient ceremonial site used by Native Americans, who used the rocks for their rituals.

Others believe the boulders are pieces of a meteorite that crashed on Earth, and the radiation is why there's no vegetation nor animals that settle in the boulder field.

Of course, we can't talk about the inexplicable without chocking it up to aliens.

Take Stonehenge. The ancient monument has never been a stranger to green space men and conspiracy theorists, even more so now that ringing rocks were discovered on the site.

Researchers from the Royal College of Art under their Landscape & Perception Project (L&P) project discovered that the bluestones (or the inner circle of Stonehenge) share the same musical ability as that of the boulders in Ringing Rocks.

Evidence showed that almost all of the rocks have scuff marks on places where it might have been struck. Proving, that the rocks were specifically chosen for their ability to make ringing sounds.

And by some strange coincidence, it just so happened that the stones were sourced from Preseli Hills, where a village named Maenclochog ̶ which translates to bell or ringing stones ̶ is located. Records show that the townspeople used bluestones as church bells until the 1800s.

To add to the mystery, recent archaeological findings reveal that Stonehenge is part of a complex network of 17 other previously unknown ancient structures including nearby Durrington Walls and Avebury.

Using sophisticated equipment like a ground-penetrating radar and a 3D laser scanner, the pioneering digital mapping project covered an area of 12-square kilometres or the size of 1,250 football fields.

What they discovered was a labyrinth of burial grounds, ritual sites, processional routes, and pre-historic trenches all seemingly converging towards the direction of Stonehenge as its centre.

Following various cultural studies, what links Stonehenge's bluestones and the boulder field in Pennsylvania is that the ringing rocks they're made of are considered sacred across different ancient civilizations. They were thought to contain powerful spirits and may have been used in religious ceremonial practices as a way to speak with the gods.

But no matter how similar the role of ringing rocks around the world are, in the context of history and culture, there's still not one physical characteristic that exists among all of them that could explain why they ring.

And so the mystery continues. Who knows, maybe it really is aliens, and the worlds one rocking intergalactic mixtape?

Sources:

New Music Video: Square Peg Round Hole at Ringing Rocks, http://www.phillymag.com/ticket/2016/01/20/new-music-video-square-peg-round-hole-at-ringing-rocks/

Watch This Band Create Music on 'Ringing' Boulders, http://mentalfloss.com/article/74267/watch-band-create-music-ringing-boulders

Great Natural Areas in Eastern Pennsylvania, https://books.google.com.ph/books?id=-AGm3Ny_NsgC&lpg=PA123&ots=07EIMk7EUW&dq=Buckwampum%20historical%20society&pg=PA124#v=onepage&q=Buckwampum%20historical%20society&f=false

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Ringing Rocks, http://www.davidhanauer.com/buckscounty/ringingrocks/

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Ringing Rocks of Bucks Co., http://pabook2.libraries.psu.edu/palitmap/Ringing.html

These rocks can sing, http://articles.latimes.com/2011/apr/02/nation/la-na-ringing-rocks-20110403

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Stonehenge bluestones had acoustic properties, study shows, http://www.bbc.com/news/uk-england-wiltshire-26417976