7 Things To Know About Spacewalks

Looks like they could kill you but is actually a cinnamon roll: W Boson

Looks like a cinnamon roll but could actually kill you: Photon

Looks like they could kill you and can actually kill you: Z Boson

Looks like a cinnamon roll and is actually a cinnamon roll: Gluon

Spinnamon Roll: Higgs Boson

Hubble Finds That the Nearest Quasar Is Powered by a Double Black Hole

The finding suggests that quasars—the brilliant cores of active galaxies – may commonly host two central supermassive black holes, which fall into orbit about one another as a result of the merger between two galaxies. Like a pair of whirling skaters, the black-hole duo generates tremendous amounts of energy that makes the core of the host galaxy outshine the glow of its population of billions of stars, which scientists then identify as quasars.

Scientists looked at Hubble archival observations of ultraviolet radiation emitted from the center of Mrk 231 to discover what they describe as “extreme and surprising properties.”

If only one black hole were present in the center of the quasar, the whole accretion disk made of surrounding hot gas would glow in ultraviolet rays. Instead, the ultraviolet glow of the dusty disk abruptly drops off toward the center. This provides observational evidence that the disk has a big donut hole encircling the central black hole. The best explanation for the donut hole in the disk, based on dynamical models, is that the center of the disk is carved out by the action of two black holes orbiting each other. The second, smaller black hole orbits in the inner edge of the accretion disk, and has its own mini-disk with an ultraviolet glow.

Read more ~ NASA.gov

Image: This artistic illustration is of a binary black hole found in the center of the nearest quasar to Earth, Markarian 231.    Credits: NASA, ESA, and G. Bacon (STScI)

Possible expansion/revision on QED theory needed? …

“Observations made with NIST’s Electron Beam Ion Trap indicate that, in ions with a strongly positive charge, electrons can behave in ways inconsistent with quantum electrodynamics (QED) theory, which describes electromagnetism. While more experiments are needed,the data could imply that some aspects of QED theory require revision. ”

…read more

Imprisoned Molecules ‘Quantum Rattle’ in Their Cages

ScienceDaily (Aug. 20, 2012) — Scientists have discovered that a space inside a special type of carbon molecule can be used to imprison other smaller molecules such as hydrogen or water…. (read more)

Curiosity, Sojourner and Opportunity size comparisons to people.

via reddit

Quantum ‘spookiness’ passes toughest test yet

Experiment plugs loopholes in previous demonstrations of 'action at a distance', against Einstein's objections — and could make data encryption safer.

It’s a bad day both for Albert Einstein and for hackers. The most rigorous test of quantum theory ever carried out has confirmed that the ‘spooky action at a distance’ that the German physicist famously hated — in which manipulating one object instantaneously seems to affect another, far away one — is an inherent part of the quantum world.

The experiment, performed in the Netherlands, could be the final nail in the coffin for models of the atomic world that are more intuitive than standard quantum mechanics, say some physicists. It could also enable quantum engineers to develop a new suite of ultrasecure cryptographic devices.

“From a fundamental point of view, this is truly history-making,” says Nicolas Gisin, a quantum physicist at the University of Geneva in Switzerland.

Continue Reading.

Associated Press

GENEVA — Physicists on the team that measured particles traveling faster than light said Friday they were as surprised as their skeptics about the results, which appear to violate the laws of nature as we know them.

Hundreds of scientists packed an auditorium at one of the world’s foremost laboratories on the Swiss-French border to hear how a subatomic particle, the neutrino, was found to have outrun light and confounded the theories of Albert Einstein.

“To our great surprise we found an anomaly,” said Antonio Ereditato, who participated in the experiment and speaks on behalf of the team.

An anomaly is a mild way of putting it.

Going faster than light is something that is just not supposed to happen, according to Einstein’s 1905 special theory of relativity. The speed of light — 186,282 miles per second (299,792 kilometers per second) — has long been considered a cosmic speed limit.

The team — a collaboration between France’s National Institute for Nuclear and Particle Physics Research and Italy’s Gran Sasso National Laboratory — fired a neutrino beam 454 miles (730 kilometers) underground from Geneva to Italy.

They found it traveled 60 nanoseconds faster than light. That’s sixty billionth of a second, a time no human brain could register.

“You could say it’s peanuts, but it’s not. It’s something that we can measure rather accurately with a small uncertainty,” Ereditato told The Associated Press.

If the experiment is independently repeated — most likely by teams in the United States or Japan — then it would require a fundamental rethink of modern physics.

“Everybody knows that the speed limit is c, the speed of light. And if you find some matter particle such as the neutrino going faster than light, this is something which immediately shocks everybody, including us,” said Ereditato, a researcher at the University of Bern, Switzerland.

Physicists not involved in the experiment have been understandably skeptical.

Alvaro De Rujula, a theoretical physicist at CERN, the European Organization for Nuclear Research outside Geneva from where the neutron beam was fired, said he blamed the readings on a so-far undetected human error.

If not, and it’s a big if, the door would be opened to some wild possibilities.

The average person, said De Rujula, “could, in principle, travel to the past and kill their mother before they were born.”

But Ereditato and his team are wary of letting such science fiction story lines keep them up at night.

“We will continue our studies and we will wait patiently for the confirmation,” he told the AP. “Everybody is free to do what they want: to think, to claim, to dream.”

He added: “I’m not going to tell you my dreams.”

Water Droplet Orbiting a Needle in Space

“This experiment was performed back in 2012 by astronaut Don Pettit on board the International Space Station (ISS) as part of NASA’s Science off the Sphere series. And although the set-up may look a lot like a strangely shaped planetary system, the physics here is a little different, because it’s the effect of static electric forces, rather than gravitational pull, that’s keeping the droplets in orbit.“

This happens because our awesome astronaut rubbed the polyethylene needle with paper to create an electric charge, (similar to rubbing a balloon on your head..) which “captures” the water droplet in an orbit. In the absence of gravity the potential force of the charge keeps the water droplet in orbit.

Here’s an explanation from the astronaut himself. It’s awesome.

VIDEO.

Neat! :D

Scientists don’t fully understand quantum entanglement—but they know that space, or physical distance, is not a factor in the “communication” between two entangled particles. If one is affected by a force or a measurement, the other also reacts in the same moment, even if they are separated by leagues. Unlocking the secrets of this phenomenon could lead to incredible advancements in technology, such as quantum machines that transmit information faster than light.

Click the image above to learn more!

Is There Sound in Space?

Sound can’t actually travel through a vacuum like space, but scientists have learned that there’s still plenty to hear.