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Comet 2

WISE recently spotted Asteroid 2014 HQ124 - It's half a mile wide and it's coming close on June 8

Lydia Smith
International Business Times
Wed, 04 Jun 2014 05:33 UTC
Image
A large asteroid is set to fly by Earth on 8 June, travelling at a speed of 31,000mph.

According to Space.com, current estimates show that Asteroid 2014 HQ124, was detected in April by Nasa's Wise telescope.

While it is not unusual for asteroids to fly past Earth, or just outside the orbit of the moon, it is less common to discover a previously unknown celestial object of that size. According to Nasa, the Minor Planet Center has classified 2014 HQ124 as a "Potentially Hazardous Asteroid".

The asteroid is inclined to the plane of the solar system by 26 degrees and is currently at -71 degrees inclination. It is out of reach of all but most southern telescopes.

On 6 June 2014 the asteroid will brighten to about apparent magnitude 13.7 and be in Horologium, a small and faint constellation in the southern sky.

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Fireball 2

Early-season noctilucent clouds sighted in Germany

Adonai
The Watchers
Tue, 03 Jun 2014 22:05 UTC
For the second time in just a few days, noctilucent clouds (also known as NLCs) have been sighted in Germany, SpaceWeather reports. Although their northern season is just getting underway, researchers aren't sure why these early NLCs seem to favor German longitudes.

This morning shortly before sunrise, Chris Kranich spotted the telltale electric-blue ripples over Kiel:
noctilucent clouds germany
© Chris Kranich
Noctilucent clouds
"These second noctilucent clouds of the season appeared shortly after astronomic midnight and rose over the horizon for about two hours before disappearing in the morning twilight," says Kranich.

Noctilucent cloud season, which begins every year in late spring and stretches into summer, is just getting underway. NASA's AIM spacecraft saw the first NLCs of the northern season on May 24th. Ground-level sightings followed soon thereafter - first on May 30 and then on June 3. So far all of the sightings reported to spaceweather.com have come from Germany.

AIM researchers aren't sure why these early NLCs seem to favor German longitudes, but they're looking into it.

See more noctilucent clouds captured by Chris Kranich here.

Source: SpaceWeather

Comment: Noctilucent clouds are becoming more frequent and at latitudes where they were almost never seen before. For an explanation of this phenomenon and many other weather anomalies reported by SOTT over the years, see Pierre Lescaudron's new book Earth Changes and the Human-Cosmic Connection

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Info

New fitness clothing is its own workout

Tanya Lewis
Live Science
Wed, 04 Jun 2014 13:10 UTC
Skinesiology
© Skinesiology
A new kind of exercise clothing, currently called Skinesiology, could help you burn calories during everyday activities, such as walking or climbing stairs.
There may be hope for people with desk jobs: A new kind of clothing aims to tone muscles and burn calories, and you don't even have to break a sweat.

The clothing, currently called "Skinesiology," was invented by a team of medical students who'd had trouble finding time to exercise. The clothes work by resisting muscles, and are designed to burn calories during everyday activities.

The team entered an entrepreneurship competition at New York University's Stern School of Business and won $75,000 to develop a prototype of the clothing.

"We're not creating [the clothing] as a replacement for exercise," said Franklin Yao, a first-year medical student at NYU School of Medicine, who is leading the startup project. Rather, it's a way to supplement exercise, Yao told Live Science.

Couch potato cure

More than one-third of U.S. adults are obese, according to the Centers for Disease Control and Prevention. The fact that many people either can't or don't want to exercise is a contributing factor, researchers say.

Although humans have led active lifestyles for hundreds of thousands of years throughout evolution, people have become more sedentary, said Dr. JR Rizzo, a rehabilitation doctor at NYU Langone Medical Center and the team's chief medical adviser.

It's a challenge to change people's habits, Rizzo said. "What if we could increase our caloric expenditure during daily activities by making clothing more resistant?" Rizzo asked.

The NYU medical students came up with the concept of workout clothes that make muscles work harder by resisting their motion and, as a result, burn extra calories.
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Robot

The pathology of transhumanist singularity

Julian Rose
Activist Post
Mon, 02 Jun 2014 00:00 UTC
Image
© unknown
Bear with me, for this may not be an easy read - but we need to crack the code of this much-discussed vainglorious chimera.
Which is not to say it doesn't exist - it does. Yet it exists as a byproduct of minds that operate in a sub human vacuum; that have severed their connection with with the normal diversity of emotions - and more particularly - with spirit and soul. Once this type of divorce is sanctioned there can only be deleterious consequences.

The current Transhumanist ethos is deeply atheistic and, as such, has no need to replace God, since it doesn't believe there is such an entity in the first place. But, ironically, it seemingly does have the need to create an all-powerful god of its own design.

Such a concept, pursued through to its conclusion, can, according to its proponents, provide some sort of final solution to the human dilemma. So we get the Transhumanist notion that the realisation of a computer that can outmaneuver the human brain will somehow produce a liberated society.

Nothing, in reality could be further from the truth. By handing over responsibility for the management of our lives to machines, we usurp our own ability to shape, alter, direct and ultimately rejoice in the art of living. Instead, we individually elect to become slaves to our own inventions.

Comment: Related...
  • Google wants to be your doctor; And its director of engineering wants you to have a brain chip
  • Skynet rising: Google acquires 512-qubit quantum computer; NSA surveillance to be turned over to AI machines

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Telescope

'The Godzilla of Earths!' New planet weighing 17 times greater than Earth discovered


RT
Tue, 03 Jun 2014 07:48 UTC
Mega earth
© Reuters / David A. Aguilar
The newly discovered ''mega-Earth'' Kepler-10c dominates the foreground in this artist's conception released by the Harvard-Smithsonian Center for Astrophysics in Cambridge, Massachusetts on June 2, 2014.
A humungous Earth-like planet found by US astronomers has changed the perception of planet formation. A rocky world found by Kepler space observatory should by rights have become a giant ball of gas, but has remained a planet for billions of years.

The newly discovered Kepler-10c planet has been dubbed 'Mega-Earth' thanks to its diameter of 29,000 kilometers and an estimated weight 17 times greater than Earth, which has a diameter of 12,742 kilometers. This makes Kepler-10c the biggest rocky planet ever discovered.

The new planet is circling a very old Sun-like star, Kepler-10, some 560 light years from Earth. If you look up in the sky this star can be seen in the Draco constellation, which is 300 million light years away.
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Cassiopaea

Quark nova spotted in Cassiopeia A?

Shannon Hall
Sky&Telescope
Thu, 29 May 2014 21:51 UTC
Cas A
© NASA/JPL-Caltech/CXC/SAO
Cas A as seen by NuSTAR (blue) and Chandra (red, yellow and green).
Two elements deep within Cassiopeia A, hint the supernova remnant underwent a quark nova - a theoretical second explosion that leaves behind a quark star - just days after the original supernova.

Massive stars are thought to end their lives in cataclysmic explosions, leaving behind neutron stars or black holes as their corpses.

But there are even stranger possibilities.

Cassiopeia A exploded some 300 years ago and is now a beautiful cascade of gases surrounding a neutron star (or so we think). Dozens of ground- and space-based telescopes have collected the remnant's light over the years. And recently, NuSTAR - NASA's latest high-energy X-ray satellite - stared at Cas A for 13.8 days straight, shedding light deep into this remnant.

Now, astronomers from the University of Calgary in Alberta, Canada, have proposed a more exotic scenario: days after the first supernova explosion, the neutron star exploded once more, creating a quark star instead.

"It's hard not to imagine that nature wouldn't make use of this stage between a neutron star and a black hole," says lead author Rachid Ouyed, one of the first scientists to suggest the concept. "A quark nova can be thought as a bridge between these two."

Quarks are the fundamental building blocks of matter. They normally associate in groups of two or three, producing familiar protons and neutrons. But, like any new ideas in theoretical physics, they're enshrouded in controversy and debate.
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Sun

IRIS telescope captures high resolution images of solar storm for first time


RT.com
Sun, 01 Jun 2014 18:03 UTC
solar storm
© NASA
NASA's revolutionary solar observatory has captured rare footage of super-hot bubbles on the sun's surface, known as coronal mass ejections.

"The field of view seen here is about five Earths wide and about seven-and-a-half Earths tall," NASA said in a description of the video, which shows the sun emitting flares into space.

While coronal mass ejections (CMEs) are not rare themselves (there can be up to two or three CMEs per week depending on the sunspot cycle), this time is different - because for the first time, the process was caught on camera by NASA's Interface Region Imaging Spectrograph, or IRIS.

The seven-foot ultraviolet telescope was launched into space in June 2013. It is able to peer into the lowest levels of the sun's atmosphere to observe how solar material moves, gathers energy, and heats up. It then documents the details using higher resolution imaging than ever before.
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Chalkboard

A meta-law to rule them all: Can information theory lead the way to a real "theory of everything"

Zeeya Merali
Scientific American
Mon, 26 May 2014 17:22 UTC
david deutsch
© physics.ox.ac.uk
Physicist David Deutsch, who is developing a potential 'theory of everything' with Chiara Marletto.
"Once you have eliminated the impossible," the fictional detective Sherlock Holmes famously opined, "whatever remains, however improbable, must be the truth." That adage forms the foundational principle of "constructor theory" - a candidate "theory of everything" first sketched out by David Deutsch, a quantum physicist at the University of Oxford, in 2012. His aim was to find a framework that could encompass all physical theories by determining a set of overarching "meta-laws" that describe what can happen in the universe and what is forbidden. In a May 23 paper posted to the physics preprint server, arXiv, constructor theory claims its first success toward that goal by unifying the two separate theories that are currently used to describe information processing in macroscopic, classical systems as well as in subatomic, quantum objects.

Computer scientists currently use a theory developed by the American mathematician and cryptographer Claude Shannon in the 1940s to describe how classical information can be encoded and transmitted across noisy channels efficiently - what, for instance, is the most data that can be streamed, in theory, down a fiber-optic cable without becoming irretrievably corrupted. At the same time, physicists are striving to build quantum computers that could, in principle, exploit peculiar aspects of the subatomic realm to perform certain tasks at a far faster rate than today's classical machines.

But the principles defined by Shannon's theory cannot be applied to information processing by quantum computers. In fact, Deutsch notes, physicists have no clear definition for what "quantum information" even is or how it relates to classical information. "If we want to make progress in finding new algorithms for quantum computers, we need to understand what quantum information actually is!" he says. "So far, the algorithms that have been discovered for quantum computers have been surprises that were discovered by blundering about because we have no underlying theory to guide us."

Comment: For more on information theory and how it may apply to everyday life, see Pierre Lescaudron and Laura Knight-Jadczyk's new book, Earth Changes and the Human-Cosmic Connection.

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Fireball 5

Fireballs light up the radio sky, hinting at unexplored physics

Shannon Hall
Universe Today
Mon, 02 Jun 2014 13:45 UTC
Plasma Trail
© Gregory Taylor (University of New Mexico)
A series of All-Sky (fish eye) images showing the plasma trail left by a fireball, which extends 92 degrees across the northern half of the sky. These images are 5 second snapshots captured at 37.8 MHz with the LWA1 radio telescope. The bright steady sources (Cygnus A, Cassiopeia A, the galactic plane, etc) have been removed using image subtraction. See Animated Image Here
At any given moment, it seems, the sky is sizzling with celestial phenomena waiting to be stumbled upon. New research using the Long Wavelength Array (LWA, a collection of radio dishes in New Mexico, found quite the surprise. Fireballs - those brilliant meteors that leave behind glowing streaks in the night sky - unexpectedly emit a low radio frequency, hinting at new unexplored physics within these meteor streaks.

The LWA keeps its eyes to the sky day and night, probing a poorly explored region of the electromagnetic spectrum. It's one of only a handful of blind searches carried out below 100 MHz.

Over the course of 11,000 hours, graduate student Kenneth Obenberger from the University of New Mexico and colleagues found 49 radio bursts, 10 of which came from fireballs.

Most of the bursts appear as large point sources, limited to four degrees, roughly eight times the size of the full Moon. Some, however, extend several degrees across the sky. On January 21, 2014, a source left a trail covering 92 degrees in less than 10 seconds (see above). The end point continued to glow for another 90 seconds.
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Info

Blond hair gene identified

Tia Ghose
Live Science
Mon, 02 Jun 2014 09:18 UTC
Blond Kids
© wavebreakmedia/Shutterstock.com
election for different hair color could be a byproduct of other, more consequential genetic changes. One idea is that light-skin genes helped ancient humans survive in Northern Europe's low-light conditions, and light hair may have been a byproduct.
A genetic mutation that codes for the blond hair of Northern Europeans has been identified.

The single mutation was found in a long gene sequence called KIT ligand (KITLG) and is present in about one-third of Northern Europeans. People with these genes could have platinum blond, dirty blond or even dark brown hair.

"There's a half dozen different chromosome regions that influence hair color," said study co-author David Kingsley, an evolutionary biologist at the Howard Hughes Medical Institute and Stanford University in California. "This is one, but not the only one. The combination of variants that you have at all those different genes - that sets your final hair color."

Fish colors

Kingsley's team first encountered the gene about seven years ago, when they noticed that stickleback fish color ranged from dark to light depending on the type of water they inhabited. It turned out that a change in one base pair, or letter, in the KITLG gene was responsible.

The gene codes for a protein known as KIT ligand, which binds to receptors throughout the body and affects pigmentation, blood cells, nerve cells in the gut, and sex cells. A broken KITLG gene would be disastrous for an individual, Kingsley told Live Science.

"You'd have white hair and be sterile, because your gonads hadn't developed properly - and actually, you'd be dead, because blood cells didn't do what they're supposed to do in the bone marrow," he said.

Yet the mutation also seemed to be linked to normal variations in hair color. In population studies, blonds in Iceland were much more likely than brunettes to have the genetic variant.
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