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How Learning A New Language Changes Your Brain And Your Perception

Learning a foreign language opens us up to new experiences, work opportunities, and allows us to meet people we may never have otherwise. More than that, research has shown learning a language can also physically change brain structure and adjust perception.

When we learn a language, we create new neural pathways in our brain, which can lead to noticeable changes. The left hemisphere is generally believed to be the logical part of the brain and is where many of our language skills originate. However, a 2012 Swiss study observed that learning a foreign language later in life is associated with thickening of the cerebral cortex — a layer of neurons specifically responsible for memory, thought, consciousness and, of course, language. This increased thickness can lead to better memory and sharper thinking later in life.

Learning a new language doesn’t just change the physical makeup of the brain. Based on a theory known as linguistic relativity, learning a new language can also change the way we see the world. This is specifically true in relation to our color perception. For example, Japanese speakers have far more words to describe the color blue, and as a result are generally able to see more shades of blue than English speakers. On the other side of the spectrum, the Himba tribe of Namibia in Southern Africa have only five words to describe all the colors in the world. Researchers have observed that, without a word for the color blue, the Himba struggle to tell it apart from green — an easy feat for English speakers.

Infographic by the team at Sunbelt Staffing

One of the physicists behind the Higgs boson has made an algorithm to replace the pill

It's up to 99.5% effective at stopping pregnancy.

One of the physicists who helped find the Higgs boson, Elina Berglund, has spent the past three years working on something completely different - a fertility app that tells women when they’re fertile or not.

It’s not the first fertility app out there, but Berglund’s app works so well that it’s been shown to help women avoid pregnancy with 99.5 percent reliability - an efficacy that puts it right up there with the pill and condoms.

Best of all, the app doesn’t have any side effects, and just requires women to input their temperature daily to map their fertility throughout the month.

Back in 2012, Berglund was working at CERN on the Large Hadron Collider experiment to find the famous Higgs boson. But after the discovery of the particle, she felt it was time to work on something completely different.

“I wanted to give my body a break from the pill,” she told Daniela Walker from Wired, “but I couldn’t find any good forms of natural birth control, so I wrote an algorithm for myself.”

The resulting app is called Natural Cycles, and so far, it’s had pretty promising results.

Continue Reading.

Scientists Create A Potential High-Efficiency Wireless Power System

With this, the world is one step closer to Nikola Tesla’s dream of wireless electricity. http://futurism.com/scientists-creates-potential-high-efficiency-wireless-power-system/

Ridiculous History: H-bombs in Space Caused Light Shows, and People Partied. Find out more on HowStuffWorks NOW.

Say ‘Hello’ to the Remote Controlled Gun-Wielding, Rocket Launching Vehicle

Activist Kosta Grammatis puts Internet access high on the list of basic human needs. Information, he says, enables people in developing nations to teach themselves how to grow food, purify water, even create power sources. on their own. He explains why the Web is a gateway to satisfying all those needs—and more—in this Qualcomm Spark essay.

NASA is Planning to Capture an Asteroid and Put it in Orbit Around the Moon

NASA is planning a mission that will visit a large asteroid and redirect a large portion of it into a stable orbit around the Moon. From there, we can study it at our leisure. http://futurism.com/videos/nasa-planning-capture-asteroid-put-orbit-around-moon/

How Exactly Do We Plan to Bring an Asteroid Sample Back to Earth?

Our OSIRIS-REx spacecraft launches tomorrow, and will travel to a near-Earth asteroid, called Bennu. While there, it will collect a sample to bring back to Earth for study. But how exactly do we plan to get this spacecraft there and bring the sample back?

Here’s the plan:

After launch, OSIRIS-REx will orbit the sun for a year, then use Earth’s gravitational field to assist it on its way to Bennu. In August 2018, the spacecraft’s approach to Bennu will begin.

The spacecraft will begin a detailed survey of Bennu two months after slowing to encounter the asteroid. The process will last over a year, and will include mapping of potential sample sites. After the selection of the final site, the spacecraft will briefly touch the surface of Bennu to retrieve a sample.

To collect a sample, the sampling arm will make contact with the surface of Bennu for about five seconds, during which it will release a burst of nitrogen gas. The procedure will cause rocks and surface material to be stirred up and captured in the sampler head. The spacecraft has enough nitrogen to allow three sampling attempts, to collect between 60 and 2000 grams (2-70 ounces).

In March 2021, the window for departure from the asteroid will open, and OSIRIS-REx will begin its return journey to Earth, arriving two and a half years later in September 2023.

The sample return capsule will separate from the spacecraft and enter the Earth’s atmosphere. The capsule containing the sample will be collected at the Utah Test and Training Range.

For two years after the sample return, the science team will catalog the sample and conduct analysis. We will also preserve at least 75% of the sample for further research by scientists worldwide, including future generations of scientists.

The Spacecraft

The OSIRIS-REx spacecraft is outfitted with some amazing instruments that will help complete the mission. Here’s a quick rundown:

The OCAMS Instrument Suite

PolyCam (center), MapCam (left) and SamCam (right) make up the camera suite on the spacecraft. These instruments are responsible for most of the visible light images that will be taken by the spacecraft.

OSIRIS-REx Laser Altimeter (OLA)

This instrument will provide a 3-D map of asteroid Bennu’s shape, which will allow scientists to understand the context of the asteroid’s geography and the sample location.

OSIRIS-REx Thermal Emission Spectrometer (OTES)

The OTES instrument will conduct surveys to map mineral and chemical abundances and will take the asteroid Bennu’s temperature.

OSIRIS-REx Visible and Infrared Spectrometer (OVIRS)

This instrument will measure visible and near infrared light from the asteroid. These observations could be used to identify water and organic materials.

Regolith X-Ray Imaging Spectrometer (REXIS)

REXIS can image X-ray emission from Bennu in order to provide an elemental abundance map of the asteroid’s surface.

Touch-and-Go Sample Arm Mechanism (TAGSAM)

This part of the spacecraft will be responsible for collecting a sample from Bennu’s surface.

Watch Launch and More!

OSIRIS-REx Talk Wednesday, Sept. 7 at noon EDT Join us for a discussion with representatives from the mission’s science and engineering teams. This talk will include an overview of the spacecraft and the science behind the mission.  Social media followers can ask questions during this event by using #askNASA. Watch HERE. 

Uncovering the Secrets of Asteroids Wednesday, Sept. 7 at 1 p.m. EDT During this panel, our scientists will discuss asteroids, how they relate to the origins of our solar system and the search for life beyond Earth. Social media followers can ask questions during this event by using #askNASA. Watch HERE. 

LAUNCH COVERAGE!

Thursday, Sept. 8 starting at 4:30 p.m. EDT

Watch the liftoff of the United Launch Alliance’s (ULA) Atlas V rocket from Kennedy Space Center in Florida at 7:05 p.m. 

Full coverage is available online starting at 4:30 p.m. Watch

HERE

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We will also stream the liftoff on Facebook Live starting at 6:45 p.m. EDT. Watch

HERE

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Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

Not a Drill: SETI Is Investigating a Possible Extraterrestrial Signal From Deep Space

The implications are extraordinary and point to the possibility of a civilization far more advanced than our own.

GUYS. The future is now.