Chemicals used as flame retardants that are potentially harmful to humans are found in hair, toenails and fingernails, according to new research from Indiana University.

The discovery of an easily available biomarker should ease the way for further research to determine the human impact of chemicals commonly found in the environment, including in indoor dust, water and air.

Exposure to flame retardants in various forms has been linked to obesity, learning disabilities, neuro and reproductive toxicity, and endocrine disruption. Flame retardants are frequently added to plastic, foam, wood and textiles.

They are used in both commercial and consumer products worldwide to delay ignition and to slow the spread of fire. Flame retardants persist in the environment and bioaccumulate in ecosystems and in human tissues.

"Little is known about the human exposure to flame retardants, especially new classes of the retardants," said researcher Amina Salamova at the School of Public and Environmental Affairs at IU Bloomington. "The first step is to establish a relatively easy and reliable way of measuring chemical levels in people, especially children, and we've determined that hair and nails can provide exactly that."

Until now, researchers depended on samples of human milk, blood and urine, and those samples are more difficult to obtain than hair and nails.

Astronomers for the first time have detected repeating short bursts of radio waves from an enigmatic source that is likely located well beyond the edge of our Milky Way galaxy. The findings indicate that these "fast radio bursts" come from an extremely powerful object which occasionally produces multiple bursts in under a minute.

Prior to this discovery, reported in Nature, all previously detected fast radio bursts (FRBs) have appeared to be one-off events. Because of that, most theories about the origin of these mysterious pulses have involved cataclysmic incidents that destroy their source - a star exploding in a supernova, for example, or a neutron star collapsing into a black hole. The new finding, however, shows that at least some FRBs have other origins.

FRBs, which last just a few thousandths of a second, have puzzled scientists since they were first reported nearly a decade ago. Despite extensive follow-up efforts, astronomers until now have searched in vain for repeat bursts.

That changed last November 5th, when McGill University PhD student Paul Scholz was sifting through results from observations performed with the Arecibo radio telescope in Puerto Rico - the world's largest radio telescope. The new data, gathered in May and June and run through a supercomputer at the McGill High Performance Computing Centre, showed several bursts with properties consistent with those of an FRB detected in 2012.

The search for aliens in faraway worlds could be made easier, with new research determining a way to establish the difference between life and the illusion of life. The study focuses on the importance of 'biosignatures' in the atmospheres of exoplanets.

Researchers from the University of Washington believe the evidence of oxygen - a biosignature - is key in the search for life outside our solar system.

But just because a planet has oxygen does not mean life is sustainable or present there. For example, Venus contains both oxygen and carbon dioxide, but its atmosphere is too hot and acidic to sustain life - so the oxygen is a 'false positive.'

Ruling out such false positives is essential for scientists searching for life, and the researchers claim they have a found a way to do so easily. That process hinges on the process of spectroscopy, the study of spectral features of light visible through a planet's atmosphere when it transits or passes in front of its host star.

It's well-known that lightning is an electric current—a quick, powerful burst of charge that flows within a cloud or between a cloud and the ground. But surprisingly, scientists still don't fully understand how the initial spark forms that generates such powerful lightning.

In a new paper published in Nature Communications, researchers from Langmuir Laboratory at the New Mexico Institute of Mining and Technology near Socorro, New Mexico, have reported observations of a rare but extremely powerful type of lightning spark, or discharge, called narrow bipolar events. The scientists found that this powerful type of lightning is caused by a newly recognized type of discharge called fast positive breakdown, and the data suggests that this same discharge initiates most or even all of the lightning flashes typically seen in thunderstorms. These sparks travel at speeds that are fast even for lightning—around 10 to 100 million meters per second—and produce very powerful radiofrequency (RF) radiation as high as a few megawatts, making them the strongest natural sources of RF radiation on Earth.

This discovery is surprising, since previous simulations have shown that lightning breakdown appears to be negative, meaning the spark moves upward in the cloud from a negative to a positive region. In positive breakdown, the spark moves downward from a positive to a negative region.

"It is impossible to simulate thunderstorm conditions in a conventional laboratory," coauthor William Rison at the New Mexico Institute of Mining and Technology told Phys.org. "The sparks in thunderstorms are hundreds of meters to kilometers long, a scale that is orders of magnitude larger than in any laboratory environment. Theorists have been trying to simulate these conditions in computer experiments, and the most plausible results have suggested that the sparks are initiated with relativistic electron avalanches, which is a type of negative breakdown. Our results clearly show that the initiation is with a positive breakdown, not a negative breakdown."

The results could help scientists better understand how a cloud can generate a current that is powerful enough to cause lightning. Currently, the largest electric fields that have been measured inside thunderstorms are several times weaker than what is needed to break down cloudy air and initiate lightning.

Russian engineers working on the Mayak crowd funded satellite project have announced that the satellite is nearing a launch date—once in space, the team claims that it will be the most visible object in the night sky.

The project has been instigated by engineers and others with the University of Mechanical Engineering in Moscow. The team reported that they had collected a million and a half rubles (approximately USD 20,000) via the Boomstarter crowd-funding site which has been added to other donations—together, it has been enough to build and test the satellite.

The project has three main goals, the first is to prove that such an effort can work, i.e. that crowd-funding can be used to pay for space research projects. The team wants to show that space exploration is no longer confined to just governments or wealthy groups or individuals—and that going forward, most any group or person with a passion for space exploration can start a project and get it funded. The second goal is for the satellite to do its job, which is to unfurl and use its large swath of reflectors to reflect rays from the sun back to Earth—which will make it the brightest object in the night sky. Mayak was designed and built at UME. The third goal, which requires further funding, is to build an aerodynamic braking system for satellites that can be used to bring them back down to Earth, removing the need to add an engine. As a side project, the team also has plans to build a model of the Mayak satellite to be housed in Moscow's Museum of Cosmonautics.

Most biology students will be able to tell you that neural signals are sent via mechanisms such as synaptic transmission, gap junctions, and diffusion processes, but a new study suggests there's another way that our brains transmit information from one place to another.

Researchers in the US have recorded neural spikes travelling too slowly in the brain to be explained by conventional signalling mechanisms. In the absence of other plausible explanations, the scientists believe these brain waves are being transmitted by a weak electrical field, and they've been able to detect one of these in mice.

"Researchers have thought that the brain's endogenous electrical fields are too weak to propagate wave transmission," said Dominique Durand, a biomedical engineer at Case Western Reserve University. "But it appears the brain may be using the fields to communicate without synaptic transmissions, gap junctions or diffusion."

Anyone who has ever watched a sci-fi film and wished they could upload information to their brain in seconds could be in luck.

Scientists have developed a way of amplifying learning in a way that almost mimics the methods used in The Matrix.

In the film, Neo - played by Keanu Reeves - has a range of kung-fu skills 'uploaded' directly into his brain in just a few seconds.

Experts working at the HRL Information and System Sciences Laboratory in California, have been able to do the same thing, albeit on a lesser scale.

By studying electric signals in the brain of a trained pilot, and feeding that data into an unskilled person through a electric scalp-cap, novices were able to learn the task 33% better than the placebo group.

Recently, Anti-Media covered the revelation that Samsung transmits audio commands recorded by their Smart TVs to a third party company, which raises all sorts of red flags regarding encryption standards and, more importantly, people's privacy in their own homes.

Last year, Anti-Media posted a list of surprising objects endowed with surveillance or data extraction capabilities — including the Statue of Liberty, mannequins, billboards, and more. The company Immersive Labs, for instance, creates software for digital billboards that allows them to watch your face and then tailor a specific ad based on your facial features.

On Monday, the next generation of corporate surveillance was deployed — a new kind of billboard that utilizes surveillance triangulation the likes of which we've never seen.

According to the article entitled "See That Billboard? It May See You," Clear Channel Outdoor Americas has partnered with a bevy of tech and data companies, including AT&T, to combine billboard surveillance and location-based mobile data in order to study people's travel patterns and shopping behaviors. The program, called Radar, will hit 11 major markets this coming Monday. Clear Channel plans on expanding Radar to the entire nation within a year.

Scientists have claimed they have found a way for women to have babies without men by creating artificial sperm.

The team from China claim they have created healthy mouse babies by injecting laboratory-made sperm into eggs to produce mouse offspring.

The scientists claim their stem cell technique could pave the way for new treatments for male fertility.

But British experts have called for the results to be independently verified and pointed out that any practical application is likely to be a long way off.

Researchers exploring the world of neuroscience are venturing deep down the rabbit hole, creating what they claim is a new brain stimulator that can instantly improve an individual's ability to learn new skills.

The startling news comes from HRL Laboratories, which compared the new device to technology depicted in the movie "The Matrix" that showed highly advanced software instantly teaching the character Neo advanced martial arts. In this case, they sought to transfer the skills of a professional airplane pilot to those who did not know how to fly a plane.