Curiositytherover - I Like Space.

For The First Time Ever, DNA Was Sequenced In Microgravity

a full day from space (x-post woahdude)

Source: https://imgur.com/mOpsxQu

Cygnus Cargo Craft: What’s Onboard?

New experiments are scheduled to arrive to the International Space Station with the launch of Orbital ATK’s Cygnus cargo spacecraft on Tuesday. These science payloads will study fires, meteors, regolith, adhesion and 3-D printing in microgravity.

Take a look at the experiments:

Saffire-I

What is it? What happens when you set a fire in space? The Spacecraft Fire Experiment-I (Saffire-I) will find out!

How does it work? This experiment will intentionally light a large-scale fire inside an empty Cygnus resupply vehicle after it leaves the space station and before it re-enters Earth’s atmosphere.

Why is it important? The Saffire-I investigation provides a new way to study a realistic fire on an exploration vehicle, which has not been possible in the past because the risks for performing studies on manned spacecraft are too high. Instruments on the returning Cygnus will measure flame growth, oxygen use and more.

Meteor

What is it? A less heated investigation, Meteor Composition Determination (Meteor) will enable the first space-based observations of meteors entering Earth’s atmosphere from space. Meteors are somewhat rare and are difficult to monitor from the ground because of Earth’s atmosphere.

How does it work? This investigation uses high-resolution video and image analysis of the atmosphere to acquire the physical and chemical properties of the meteoroid dust, such as size, density and chemical composition.

Why is it important? Studying the elemental composition of meteors adds to our understanding of how the planets developed, and continuous measurement of meteor interactions with Earth’s atmosphere could spot previously unforeseen meteors.

Strata-1

What is it? A more “grounded” investigation will study the properties and behavior of regolith, the impact-shatterd “soil” found on asteroids, comets, the moon and other airless worlds.

How does it work? The Strata-1 experimental facility exposes a series of regolith simulants, including pulverized meteorite material, glass beads, and regolith simulants composed of terrestrial materials and stored in multiple transparent tubes, to prolonged microgravity on the space station. Scientists will monitor changes in regolith layers and layering, size sorting and particle migration via video images and close examination after return of the samples to Earth.

Why is it important? The Strata-1 investigation could give us new answers about how regolith behaves and moves in microgravity, how easy or difficult it is to anchor a spacecraft in regolith, how it interacts with spacecraft and spacesuit materials and other important properties.

Gecko Gripper

What is it? From grounded to gripping, another investigation launching takes inspiration from small lizards. Geckos have specialized hairs on their feed called setae that let them stick to vertical surfaces without falling, and their stickiness doesn’t wear off after repeated use. The Gecko Gripper investigation tests a gecko-adhesive gripping device that can stick on command in the harsh environment of space.

How does it work? The gripping device is a material with synthetic hairs much like setae that are much thinner than a human hair. When a force is applied to make the tiny hairs bend, the positively charged part of a molecule within a slight electrical field attracts the negatively charged part of its neighbor resulting in “stickiness.” Once adhered, the gripper can bear loads up to 20 pounds. The gripper can remain in place indefinitely and can also be easily removed and reused.

Why is it important? Gecko Grippers have many applications on current and future space missions, including acting as mounting devices for payloads, instruction manuals and many other small items within the space station. In addition, this technology enables a new type of robotic inspection system that could prove vital for spacecraft safety and repair.

Additive Manufacturing Facility

What is it? From adhesion to additive, the new Additive Manufacturing Facility (AMF) will also launch on the flight. Additive manufacturing (3D printing) is the process of building a part layer-by-layer, with an efficient use of the material.

How does it work? The AMF uses this technology to enable the production of components on the space station for both NASA and commercial objectives.

Why is it important? Parts, entire experiments and tools can be created on demand with this technology. The ability to manufacture on the orbiting laboratory enables on-demand repair and production capability, as well as essential research for manufacturing on long-term missions.

These sticky, stony and sizzling investigations are just a sampling of the wide range of science conducted on the orbiting laboratory that benefits future spaceflight and provides Earth-based benefits as well.

Watch the Launch!

You can watch the launch of Orbital ATK’s Cygnus spacecraft online. Stream live coverage starting at 10 p.m. EDT on March 22. Launch is scheduled for 11:05 p.m., which is the start of a 30-minute launch window. 

Watch online: nasa.gov/nasatv 

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

This glorious map helps you keep track of every space mission in the Solar System

We’ve come so far.

Space exploration is pretty amazing right now. Just yesterday, we launched the ExoMars 2016 spacecraft, which will hunt for signs of life on Mars, and by now, the Voyager 1 spacecraft is likely way out in interstellar space. NASA recently announced that it plans to visit Europa, one of the most promising candidates in our Solar System to host life, and even NASA’s chief scientist thinks we’ll find alien life within 20 to 30 years, as long as we keep exploring.

But how do you keep track of all these awesome space missions? To help out,the guys at Pop Chart Lab have created this beautiful poster showing our space exploration to date. It spans all the way from 1959 to 2015, and features over 100 exploratory probes, landers, and rovers.

As you can see on the poster below, the majority of our machines never leave Earth’s orbit. There are a whole lot of crowded lines near our planet, each of which belongs to a space probe or explorer of some kind. But as you get further from Earth, there are less and less of these brave explorers, and you get to see just how far humanity has travelled into our Solar System.

Li-Fi is 100 times faster than Wi-Fi

What’s next in high-speed Internet? Beams of light, flickering faster than the eye can see. A recent test by New Delhi-based startup Velmenni used “Li-Fi” to transfer data at 1 gigabyte a second. The futuristic tech uses LED lightbulbs to send the high speed data — which could have a great impact on our world.

Turning sunlight into clean fuel is now cheap and simple

Staring at the sun does make you go blind. The lens in your eye concentrates the sun’s rays, which burn a permanent blind spot into your retina- just like ants under a magnifying glass. This effect is amplified during a solar eclipse.

It’s called solar retinopathy.

Source

E-paper sneakers change your style on the fly

Is the End of Daily Insulin Injections for Diabetes Sufferers in Sight?

A new study reportedly shows that boosting the immune system can safely restore insulin production for up to a year—which might make it possible for those who suffer with diabetes to not require daily injections. Notably, these are Phase 1 trials, which are designed to look at safety, not long term effectiveness. So much research is still needed.

Yet, if the technique proves viable and effective, this could change the lives of millions of people around the world. According to the Center for Diseases Control, in the United States alone, 29.1 million people (or 9.3% of the population) have diabetes. That’s one out of every 11 people. 371 million people worldwide have this condition.

To break down the research, those afflicted with Type 1 diabetes do not have enough T-regs or ‘peacekeeping’ cells, which is ultimately what causes the disease. Researchers from Yale and University of California have just showed that T-regs can be removed from the body, increased by 1,500 in a lab setting, and then placed back into the bloodstream as a way of potentially restoring the body’s insulin production back to normal.

Find out more at: http://futurism.com/links/end-daily-insulin-injections-diabetes-sufferers-sight/

The amateur geneticist who surprised science (long read)

Kim Goodsell has two rare diseases. Doctors blamed coincidence, but was it? She taught herself genetics to find out, and discovered something remarkable

Kim Goodsell was running along a mountain trail when her left ankle began turning inward, unbidden. A few weeks later she started having trouble lifting her feet properly near the end of her runs, and her toes would scuff the ground. Her back started to ache, and then her joints too.

This was in 2002, and Kim, then 44 years old, was already an accomplished endurance athlete. She cycled, ran, climbed and skied through the Rockies for hours every day, and was a veteran of Ironman triathlons. She’d always been the strong one in her family. When she was four, she would let her teenage uncles stand on her stomach as a party trick. In high school, she was an accomplished gymnast and an ardent cyclist. By college, she was running the equivalent of a half marathon on most days. It wasn’t that she was much of a competitor, exactly – passing someone in a race felt more deflating than energising. Mostly Kim just wanted to be moving.

So when her limbs started glitching, she did what high-level athletes do, what she had always done: she pushed through. But in the summer of 2010, years of gradually worsening symptoms gave way to weeks of spectacular collapse. Kim was about to head to Lake Superior with her husband. They planned to camp, kayak, and disappear from the world for as long as they could catch enough fish to eat. But in the days before their scheduled departure, she could not grip a pen or a fork, much less a paddle. Instead of a lakeside tent, she found herself at the Mayo Clinic in Rochester, Minnesota.

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