Pages

Monday, 30 March 2015

TASTY TECH EYE CANDY OF THE WEEK XLIII


wps386E.tmp
Tasty Tech Eye Candy Of The Week (March 29)
By Tracy Staedter,
Discovery News, 29 March 2015.

This week we look at new ways to roll around, fly around, float around and dive around.

1. Jet Reptile

wps24DE.tmp

The compact water-craft, Jet Reptile, comes from Jet Capsule, a company that has had success in the mini-yacht market. Who knew there was such a market? Although small, the Reptile can seat eight to 12 passengers and speed them along with its MV8 engine at 57.5 miles per hour (50 knots). Fully customizable, a Reptile can be all yours for US$282,000.

2. Supersonic Plane

wps6FC9.tmp

This week, Russian news media, RT, reported that the country was investing in a transport plane that could carry 181 tons, fly at supersonic speeds and travel 4,350 miles without refuelling. Construction of the PAK TA - for Perspective Airborne Complex of Transport Aviation - could get underway by 2024 with a fleet ready to go by 2030. [Video]

3. Tricity 03GEN

wps1503.tmp

Back in 2013, Yamaha showed off its new three-wheeler, the Tricity, at the Tokyo Motor Show. Since then, the company has been evolving the vehicle. The latest iteration is the 03GEN concept. The 03GENf is designed with a future racing theme. Another one called the 03GENx has rugged wheels for off-roading. No details about the engine have been released yet. In the meantime, enjoy this short video showing off the designs.

4. Leaptech Wing

wps7489.tmp

NASA began testing an electric plane concept that gets its power from 18 motors on the wings. The Leading Edge Asynchronous Propeller Technology - called LEAPTech - reduces drag for an efficient, steady flight using wings that are one-third the size of conventional aircraft wings. [Video]

5. Supertruck

wpsCBD1.tmp

Millions of products are shipped across the United States by semi-truck. On average, these huge vehicles get six or seven miles to the gallon. But thanks to a US$40 million Federal grant, Daimler has created the SuperTruck, which in a recent road test, averaged 12.2 mpg on a 312-mile Texas highway between San Antonio and Dallas. That could save millions of dollars in gasoline and reduce emissions. [More at US Department of Energy and Autoblog]

6. Bionic Ants

wpsF1FE.tmp

German robotics company Festo is known for its animal-inspired robots. One of their latest creations is BionicAnt, a small robot meant to mimic the way insect societies work together toward a common goal.

7. Dive Suit

wpsC779.tmp

A new diving suit made for people diving at depths deeper than 100 feet is being developed by US Navy scientists. At those depths, the naturally occurring nitrogen in compressed air tanks has to be replaced with a different gas because nitrogen becomes dangerous. Most tanks use helium, but that gas has its problems, too. Among the biggest is that large amounts of helium are required, so much so, that the diver must be tethered to a surface support ship. This new suit has a rebreather that recycles the otherwise exhaled air so that rescuers can stay underwater longer.

8. Nanotech Bottle

wps5B6D.tmp

After 15 years of research and development, a water bottle filter is available that doesn't use electricity, pumps or chemicals to purify water. The Naked Filter bottle from Liquidity uses a filter with extremely small holes that let clean water through, while trapping microbes such E. coli and salmonella. The project is currently a Kickstarter that has almost reached its goal.

9. Wave Energy

wpsB2F5.tmp

Below the surface of the ocean off the coast of Perth, Australia, are three wave power generators doing double duty. Known collectively as CETO 5 (from Carnegie Wave Energy), each 240-kilowatt buoy bobs up and down pushing pressurized water through turbines to generate electricity. At the same time, the energy is used to power a desalination water system.

10. Bluetooth Lock

wps81A.tmp

The Quicklock from SafeTech Products is about to become the world's first Bluetooth padlock for consumers. No key or combination is necessary. This lock works with a phone app and a single control button on the screen that locks or unlocks the device. Easy peasy.

Top image: The PAK TA supersonic cargo plane. Credit: Aleksey Komarov via Vimeo.

[Source: Discovery News. Edited. Top image and some links added.]

10 STRANGE EARTHLY MYSTERIES THAT WE FINALLY UNDERSTAND


wpsC268.tmp
10 Strange Earthly Mysteries That We Finally Understand
By Heather Ramsey,
Listverse, 30 March 2015.

Every day, the planet confronts us with puzzles both big and small. The answers to some of these mysteries can save lives, but more often than not, the least critical secrets turn out to be the most interesting ones.

10. How Alligators Move Silently Through Water

wpsBDEF.tmp

With hardly a ripple to give them away, alligators move gracefully through the water whether they’re diving, surfacing, or rolling around. But they don’t have flippers or fins like fish or other aquatic animals, so how do they accomplish their expert manoeuvres?

Like airplane pilots, they use controls to adjust their position. However, for an alligator, those controls are special muscles that alter the position of its lungs within its body cavity. The gases in its lungs act like an internal flotation device. By using these muscles, an alligator can shift its lungs toward its tail to dive, toward its head to surface, and toward the appropriate side to roll in the water. Alligators also use their tails to help them roll.

As researcher T.J. Uriona said, “It may be that instead of these muscles arising for breathing, they arose for moving around in the water and later were co-opted for breathing.”

9. How Natural Arches Defy Gravity

wps37C4.tmp

Although natural formations like sandstone arches and alcoves often appear to defy gravity, they actually derive their strength from gravity. As wind and water erode away at the rock, the grains in the lower part of the formation are strengthened by the act of holding more weight from the top. Essentially, the grains of sand interlock from gravity-induced stress.

While some types of sandstone contain cementing minerals, researchers from the Czech Republic found that those minerals don’t have to be present for the sandstone particles to bind. In fact, cementing minerals also erode from wind and water. Regardless of the type of erosion or the presence of cementing minerals, vertical stress appears to be the most important factor in making sandstone more resistant to erosion and creating breathtaking natural sculptures.

To illustrate the concept, researchers used the example of a dry brick wall. “It is easy to pull out brick from the top of the wall, but hard to pull brick from the bottom, as it is loaded,” said geologist Jiri Bruthans. Almost like a human sculptor, nature uses wind and water as tools to eliminate the excess material and reveal the inherent shape in the stone, which is actually created by weight and gravity.

8. How Plants Are Protected From Sunburn

wpsC867.tmp

Even though plants need to absorb light from the Sun to make food through photosynthesis, ultraviolet radiation from the Sun can damage a plant’s DNA and stop it from growing. In that way, sunburns are potentially as dangerous for plants as for humans. But plants can’t lather themselves with sunscreen like we can. Instead, they produce special molecules called sinapate esters which are transported to their leaves to prevent ultraviolet-B (UV-B) radiation from penetrating the outer layers and burning the plant.

One particular kind of sinapate ester, sinapoyl malate, absorbs the complete spectrum of UV-B radiation to prevent damage to the plant’s DNA. Although these UV-B wavelengths are the same ones that damage human DNA, researchers don’t intend to add sinapoyl malate to sunblocks for people. They believe that the cinnamates we already use in our sunscreens are just as effective. Instead, scientists believe that this information should be used to develop plants that can withstand the greater radiation levels that may accompany global warming.

7. The Vel-Negative Molecule

wps41DE.tmp

Most of us know of the eight most common types of blood: A, B, AB, and O, each of which can be negative or positive for the Rhesus D antigen. But in reality, there are millions of varieties of blood. During a blood transfusion, if you receive a type of blood with an antigen that you don’t have, you can have a dangerous, possibly deadly, immune reaction to the infused blood.

In the early 1950s, doctors discovered a rare blood type - Vel-negative - that causes violent rejection of blood transfusions. Approximately 1 in 2,500 people in Europe and North America have it. But it took another 60 years for doctors to find the molecule, a protein called SMIM1, that created the Vel-negative blood type and develop two rapid DNA-based tests to identify it. These tests can be done in just a few hours. “It’s usually a crisis when you need a transfusion,” said Bryan Ballif of the University of Vermont. “For those rare Vel-negative individuals in need of a blood transfusion, this is a potentially life-saving time frame.”

6. How To Make The Perfect Popcorn

wpsD248.tmp

Through high-speed imaging and thermodynamic analysis, scientists decided to explore how popcorn jumps, where its popping sound comes from, and what temperature will produce the most popped kernels. They found that temperature is the crucial factor. When the kernel is heated, the moisture inside the kernel turns into water vapour and expands against the hull, which then fractures into a billowy, white flake.

According to their research, the French scientists found that 180 degrees Celsius (356 °F) is the perfect temperature to pop the most corn. Below that, fewer kernels will pop. When the critical temperature is reached, a leg protrudes from the grain. As the leg heats up, it jumps into the air. But instead of a rocket effect, the kernel performs a manoeuvre like a running gymnast turning a somersault.

Even though the sudden release of pressurized water vapour doesn’t cause the kernel to jump, it does create the “pop” we hear. The researchers made sure that the sound doesn’t come from the hull fracturing or the flake hitting the plate. Instead, they found that the flake becomes an acoustic resonator when its internal pressure drops, like the pop from a champagne bottle when the cork is removed.

5. Why Gorillas Eat Rotting Wood

wps379A.tmp

Gorillas will chew on decaying wood until their gums bleed, in some instances. They may also lick decaying logs and tree stumps, often returning daily to do this. At first, mystified researchers thought the rotting wood acted like medicine to soothe the animals’ stomachs or to kill parasites, but the reason turned out to be even more bizarre.

After watching 15 gorillas in the Bwindi Impenetrable National Park in Uganda eat decaying wood, scientists at Cornell University gathered samples of the wood that the animals had eaten as well as wood that the gorillas had avoided. They gathered other specimens from the gorillas’ diets, too. By analyzing all of these samples, the scientists discovered that the rotting wood provided more than 95 percent of a gorilla’s dietary sodium, although it was only 4 percent of the amount of food eaten.

Some monkeys, chimpanzees, and lemurs have also been observed eating wood. It seems the animals instinctively search for a source of sodium if their bodies need it. “This does not necessarily mean that they ‘know’ that wood is a good source of sodium, but it does mean that they can detect when it is present,” said Alice Pell of Cornell University. The animals may have learned what to eat through trial and error.

4. What Caused Iceland’s Troll War Pillars

wpsAECF.tmp
Photo credit: Chmee2/Valtameri

According to local legend, the hollow rock pillars in the Skaelinger Valley in Iceland were formed by angry trolls throwing them at each other. Each of the 40 pillars is a little over 2.4 meters (8 ft) high and 1.5 meters (5 ft) wide.

Although that explanation of these odd-looking formations is amusing, volcanologists from the University at Buffalo found that they probably came from the interaction of water and lava on land long ago. According to the scientists’ theory, lava from the Laki volcanic eruption of 1783 (Laki pictured above) was eventually blocked from going through the Skafta River Gorge, so the molten rock forged through valleys such as the Skaelinger instead. With the ground becoming hot, steam rose like geysers from gaps in the lava. Then, as more lava flowed around those columns of steam, the molten rock eventually cooled to form hollow pillars. The entire process probably took no more than a few days.

“Normally, when we think of lava coming in contact with water, we think of that water flashing to steam and causing an explosion,” said volcanologist Tracy Gregg. “Here’s an example where...you could’ve stood right there and watched it.”

3. Where Christmas Island Seamounts Came From

wps1942.tmp

Over 50 massive underwater mountains, or “seamounts,” are scattered through a 1-million-square-kilometre (417,000 mi2) area of the northeastern Indian Ocean called the Christmas Island Seamount Province. Scientists had been baffled by the origin of these seamounts, some of which rise up to 4.5 kilometres (3 mi) high. They weren’t formed by hotspots in the mantle or fractures in the ocean crust, as occurred with seamounts in other parts of the world. Instead, their signatures matched those of northwestern Australian rocks.

From this information and the reconstruction of tectonic plates, geochemists from the University of Kiel discovered that these seamounts formed from rocks that were recycled when Gondwana, an ancient supercontinent, began to split apart to form the Indian Ocean about 150 million years ago. Simultaneously, the bottom of Gondwana’s crust peeled off and became heated when it mixed with the upper mantle. Then it was pulled back to the surface.

“When the [Indian Ocean's] spreading centre passed over that area, it essentially sucked the continental bits and pieces up again,” said geochemist Kaj Hoernle. “Because these pieces have more volatile content (such as water and carbon dioxide), they produced more melted material than the normal upper mantle, and formed seamounts instead of the normal ocean crust.”

2. Why We’re Tricked By Body Doubles

wps7FAD.tmp

Stunt doubles on TV and in movies trick us into believing that we’re seeing our favourite TV or movie star because of a brain mechanism that stabilizes our perception to help us survive. Our minds perceptually “pull” us toward faces we’ve seen within the last 10 seconds; otherwise, people would look entirely different to us every time they moved their heads or the lighting on their faces changed. This would make us “blind” to even the most familiar friends and relatives and result in visual chaos.

However, this same perceptual trick, known as the “continuity field,” also works in reverse to make us mistake two completely different forms or faces as identical. The continuity field morphs faces for us by assuming that recent images haven’t changed that much. Scientists tested this by showing study participants a target image, then another quick series of pictures on a screen. When asked to find a match for the target image, most people didn’t choose a duplicate. Instead, they selected a picture combining the two latest target images. That means that their brains didn’t go for accuracy, but for a mix of the most recent pictures.

The continuity field is critical to stabilizing our vision. “If the world were unstable, things would fluctuate in appearance. We’d have double-takes all the time, and with everything - with cups, with glasses, with our kids,” said psychologist David Whitney. “Imagine how disturbing that would be.”

1. Why Guinness Bubbles Sink

wpsD59E.tmp

It doesn’t happen every time, but when it does, it makes a great party trick: Sometimes, the bubbles in a glass of Guinness go down when we would expect them to go up. Chemists from Stanford University and the University of Edinburgh decided to find out why. It turns out that the bubbles in the middle of the glass do go up. However, as the liquid circulates from the middle of the glass toward the sides and down again, it pulls the bubbles down with them.

“The answer turns out to be really very simple,” Stanford professor Richard Zare explained. “It’s based on the idea of what goes up has to come down. In this case, the bubbles go up more easily in the centre of the beer glass than on the sides because of drag from the walls. As they go up, they raise the beer, and the beer has to spill back, and it does. It runs down the sides of the glass carrying the bubbles - particularly little bubbles - with it, downward. After a while it stops, but it’s really quite dramatic and it’s easy to demonstrate.”

The carbon dioxide in many other beers is more likely to dissolve into the liquid. That’s why many people, including some scientists, thought that the nitrogen in Guinness bubbles or the shape of the glass was the reason that Guinness bubbles go down. However, the Stanford researchers found that it can occur with any liquid in a variety of different glass shapes.

Top image: Natural arch at Petra, Jordan. Credit: Berthold Werner/Wikimedia Commons.

[Source: Listverse. Edited. Top image added.]

9 SECURITY GADGETS FOR MOBILE DEVICES


wps969A.tmp
9 Security Gadgets For Mobile Devices
By Rick Broida,
Computerworld, 27 March 2015.

If you use your smartphone or tablet for work, you need to keep your data secure when you're on the go. We look at nine gadgets that try to keep your important data out of the hands of others.

Keep your mobile devices safe

Nowadays, when it seems like every week brings news of a new security breach, it seems appropriate to modernize an old saw by saying: You can never be too rich, too thin - or too secure.

Most of these security breaches relate to stolen or illegally accessed databases, of course. But let's not overlook a more local problem: The security of your mobile devices and data. Your smartphone, your tablet and even your wallet all contain oodles of critical information - business and personal alike - that could be hacked, scanned, stolen or otherwise compromised.

Gadgets to the rescue! A growing number of security helpers aim to lock down your mobile devices, protect your credit cards, even hide your tablet display from the nosy guy in the airplane seat next to yours. What follows are some of the products that leverage the latest encryption and protection technologies to keep the bad guys at bay.

1. Apricorn Aegis Secure Key 3.0

wpsCEFA.tmp

Left your tablet in the cab? With enough time and the right skills, someone could access that data, even if it's password-protected. You could try keep all your data on Google Drive, Microsoft OneDrive or a similar cloud storage service, but many companies don't feel that public clouds are secure enough to store crucial data. That's why some users (and companies) turn to USB drives.

But what happens if the drive itself gets lost or stolen? Nothing, if it's an Aegis Secure Key 3.0. This military-grade USB drive incorporates a 10-digit alphanumeric keypad and FIPS 140-2 Level 3 cryptography - meaning that, unless the user enters the correct code, ain't nobody getting that data.

The code can be 7 to 16 digits long, and because the Aegis Secure Key gets unlocked before you even insert it, there's no risk from hardware- or software-based keyloggers. Once inserted, it requires no drivers or special software, and it can be programmed to lock upon removal or after set period of inactivity.

The Secure Key starts at US$199 for 30GB. It's also available in 60GB (US$229), 120GB (US$269) and 240GB (US$369) capacities.

2. Sonavation IDKey

wps8F9B.tmp

A password manager is all well and good, but if a bad guy somehow gets his hand on the master password, the floodgates are open. Sonavation's IDKey is a hardware-based password manager that relies on a biometric fingerprint scanner. Call it a plug-and-swipe solution: To access your online accounts (such as Amazon and Google), you plug the IDKey into your Windows-based tablet or laptop (or you can pair it wirelessly with an Android or iOS device) and then swipe your finger.

The idea's not new - a number of laptops and phones come with fingerprint scanners built in - but IDKey promises virtually spoof-proof protection. According to the company, its ultrasound-based scanner captures three-dimensional images of a finger's ridges and whorls - even factoring in the size and location of your pores.

The USB dongle comes in two flavours: the US$249 X-Series and US$279 M-Series. Both are water-resistant and rechargeable, and both can pair with smartphones and tablets thanks to Bluetooth, NFC and Wi-Fi connectivity options. The M-Series adds 16GB of encrypted on-device storage and an OLED display.

3. Yubico YubiKey Neo and Neo-n

wpsAD34.tmp

When it comes to security, it's hard to beat two-factor authentication. More and more applications and enterprises are turning to hardware/software strategies to do just that, including the FIDO Alliance's Universal 2nd Factor (U2F). To the end user, however, that may mean a lot of tedious plugging and unplugging of smartcard-style U2F keys.

The YubiKey Neo (top) is a USB authentication key that offers a solution: It has a simple button that allows for one-tap token generation. And if you want security for, say, an Android phone or similar device, the Neo offers wireless connectivity via NFC. Its uber-cute sibling, the Neo-n (bottom), actually disappears inside a USB port, so you can leave it in full-time - the "button" is simply a touch-sensitive edge you graze with your finger. (But the Neo-n doesn't support NFC.) These two keys can be deployed across a variety of applications, everything from Google account logins to password management to remote access and VPN. The YubiKey Neo sells for US$50; the Neo-n, for US$60.

4. Silent Pocket RFID blockers

wps7EA0.tmp

The average shirt or pants pocket does a poor job of blocking radio signals. Okay, let's be clear - it does no job of blocking them. According to some security experts, that could be problematic - if you carry credit cards that have embedded RFID chips, for example, it's possible that someone with a scanner could slurp up your card numbers without you ever knowing it. And let's not forget the myriad wireless technologies built into your phone: Bluetooth, cellular, GPS, Wi-Fi and/or NFC. If you're serious about protecting both your data and your privacy, you might want to block some or all these signals.

That's the idea behind Silent Pocket's line of RFID-blocking products like The Suit, which looks like a fairly typical smartphone sleeve but, according to the vendor, includes shielding material that will block all the aforementioned kinds of signals. Call it a tinfoil hat for your smartphone.

The Suit (pictured here) starts at US$30 for the canvas version and US$70 for the leather version. Silent Pocket also offers a variety of secure wallets that start at US$20.

5. Plug-up U2F Security Key

wps72A.tmp

If you've got to supply U2F security keys to your entire staff, costs can start to mount up. That is, unless you consider Plug-up's FIDO U2F Security Key, which is priced about US$8. No, there's no catch - that's the real cost for this driverless USB smartcard, which provides ultra-secure protection for Google accounts and other Web services that support the FIDO U2F standard.

The Plug-up card is made largely of lightweight plastic (according to the company, the "active" metallic part is about 0.03 in. thick), which you snap out of its holder and then assemble. Although it's designed expressly for use with Google Chrome (meaning it works with Chromebooks as well as Windows tablets and laptops), its open-source foundation allows developers to leverage it for other browsers - important if your company still uses, say, Internet Explorer.

Because the Plug-up lacks a physical button, you must unplug it and then reinsert it every time you sign into an account. If that sounds like too much hassle, it might be worth spending a little extra on something like the YubiKey Neo.

6. Vysk EP1 Privacy Charging Case and QS1 Quantum Security Case

wpsEC77.tmp

Many IT managers lose sleep at night thinking about company employees walking around with unprotected phones. There's not only the risk of data compromise, but there's also the problem of gravity (broken phones cost a small fortune to replace).

The Vysk EP1 Privacy Charging Case and QS1 Quantum Security Case are iPhone cases that aim to minimize both risks. In addition to everyday hard-shell protection (and, with the EP1, a 2,200mAh extended battery), these cases include a variety of privacy features. For example, both offer a sliding shutter that blocks both camera lenses when not in use, the idea being to prevent hackers from seeing anything they shouldn't.

Meanwhile, Vysk's privacy apps encrypt your photos, videos and text messages. The QS1 adds encrypted voice communication to the mix, locking out the iPhone's microphones in favour of the case's own, which in turns routes calls through Vysk's Voice app.

Both cases come in a variety of colours. The EP1 is available for both iPhone 5/5s and iPhone 6, with a price tag of US$120. The QS1, currently for iPhone 5/5s only, is currently in pre-order for US$230 and is expected to be in wide-scale release in June 2015.

7. NXT-ID Wocket smart wallet

wps6389.tmp

Careful online shoppers often use temporary, disposable credit-card numbers to protect themselves from identity theft and other dangers. The Wocket brings a similar concept to your pocket, replacing all your existing credit cards with a single card (called the WocketCard) that resets every time you use it. The idea: To provide the most secure wallet you can carry.

The Wocket is a pocket-size (3.5 x 2.75 x 0.4 in.) electronic vault that stores all the numbers and other info from your bankcards, as well as from loyalty and membership cards. Whenever you need to actually hand a physical card to, say, a clerk or waiter, you just slip the WocketCard into the Wocket. It only takes a few taps for you to code the card to whatever (Amex, Costco, etc.) you need it to be. And the Wocket wallet itself is biometrically coded to your voice, so there's no risk of compromise if it gets lost or stolen.

Due to ship this spring, but available now via invitation only, the Wocket will sell for US$149.

8. Nymi Band

wpsE358.tmp

What's the next evolutionary step in device security? Biometrics, sure, but does that mean fingerprints? Not necessarily. Turns out you have other unique physical characteristics beyond the ridges and whorls of your fingertips. Your heartbeat, for example.

See, your ticker generates an electrocardiographic (ECG) signal that can be used to prove you're you, though until now (except for your doctor's equipment) there's never been any kind of conduit between that "heart ID" and the rest of the world. The Nymi Band wants to be that conduit: It looks like a fitness band but will rely on your ECG to take the place of a password - or, for that matter, a fingerprint.

That's the promise, anyway. For now, the Nymi Band Discovery Kit is shipping to developers for US$149; they can also download the SDK and sample applications. No word yet on when it will be available to consumers.

9. 3M Privacy Filters

wpsD01C.tmp

With so much focus on things like encryption and passwords, it's easy to overlook one of the more basic forms of security: local privacy. When you're sitting on airplane, for example, or riding a crowded commuter train, what's to stop the person next to you from glancing at your screen and seeing proprietary information or conversations?

Very little, especially in these days of high-resolution, wide-viewing-angle IPS screens. Thankfully, there's a simple way to stop these busybodies: apply a privacy-minded screen protector. 3M's line of Privacy Filters, available for smartphones, tablets and laptops, give you a clear view of your screen when you're looking head-on. But anyone looking in from the side will see only black or gold.

The company also offers a few product-specific variations. The 3M Easy-On Privacy Filter, for example, is designed to be easily applied and removed, because there may be times (like during a video or presentation) when you want your screen to be visible to others. And the 3M 4-Way Privacy Screen Protector, currently for iPhone only, blocks the view in both portrait and landscape orientations.

3M's filters are available for a wide variety of devices at prices from about US$17 and up.

[Source: Computerworld. Edited. Some links added.]

Sunday, 29 March 2015

NATIONAL GEOGRAPHIC'S BEST SPACE PICTURES THIS WEEK LIII


wpsA359.tmp
Week's Best Space Pictures: Auroras and a Total Solar Eclipse
By Jane J. Lee,
National Geographic News, 27 March 2015.

See stellar photos of the sun's fiery corona, a close-up of our blue marble world, and more.

1. A Golden Eclipse

wpsA776.tmp

Last Friday's solar eclipse threw a burnished gold shadow across clouds swirling over the Arctic Ocean in the early morning hours. NASA's Terra satellite was in the right place at the right time to snap a picture. (Learn about solar eclipse myths.)

2. A Ringside Seat

wps9820.tmp

A mini-satellite was in the perfect position to catch last Friday's solar eclipse in all its glory. Using extreme UV optics, it recorded this image of near totality as the moon passed in front of the sun, with the fiery corona flashing.

3. Ghostly Auroras

wps41FE.tmp

Familiar lights take on an eerie glow as auroras sweep across North America. Auroras usually paint the sky with greens and pinks, but when viewed through special instruments on an orbiting satellite, these ephemeral lights look like milky smears.

4. A Martian Overlook

wpsFAFE.tmp

The Mars rover Opportunity snapped this composite image of "Marathon valley" while perched on an overlook to the north. Opportunity will gradually make its way into the valley to study clay minerals spied in the area by a satellite.

5. Preparing for Flight

wps3975.tmp

A Soyuz TMA-16M spacecraft eases out of a hangar in readiness for sending a U.S. astronaut and two Russian cosmonauts to the International Space Station on March 28 for a yearlong mission. Their ride will roll to a Kazakhstan launchpad for lift-off.

6. Our Blue Marble

wps1EA6.tmp

Peacock blues, sea greens, and creamy beiges come together in the Yellow Sea in an image taken by a NASA satellite. This patch of water, with South Korea on the right and China on the left, is one of the most dynamic of the world's oceans.

[Source: National Geographic News. Edited. Some links added.]