Tugging on a pair of elastics on the updated Stormy Trail runner's jacket seals off the coat at the waist. So as the wearer runs, air entering the jacket through a series of vents can't escape out the bottom. Instead, it flows up the runner's back and escapes out another vent closer to the top of the jacket, taking heat with it and cooling the wearer in the process. It's as close as a jacket can get to air conditioning, and will be available next July for about $165. More here.
Oct 24, 2013
This Runner's Jacket Inflates To Cool You Down
The folks over at Gear Junkie got a chance to visit the product development lab at North Face's new headquarters in Alameda, California, and one of the many new innovations they were shown was this wonderful runner's jacket that uses a clever ventilation system to cool you down.
Tugging on a pair of elastics on the updated Stormy Trail runner's jacket seals off the coat at the waist. So as the wearer runs, air entering the jacket through a series of vents can't escape out the bottom. Instead, it flows up the runner's back and escapes out another vent closer to the top of the jacket, taking heat with it and cooling the wearer in the process. It's as close as a jacket can get to air conditioning, and will be available next July for about $165. More here.
Tugging on a pair of elastics on the updated Stormy Trail runner's jacket seals off the coat at the waist. So as the wearer runs, air entering the jacket through a series of vents can't escape out the bottom. Instead, it flows up the runner's back and escapes out another vent closer to the top of the jacket, taking heat with it and cooling the wearer in the process. It's as close as a jacket can get to air conditioning, and will be available next July for about $165. More here.
Dolphins Inspire a New Kind of Radar That Detects Hidden Electronics
Not only are they out there keeping fish populations under control and occasionally leading lost boaters to land, dolphins' unique hunting techniques have also recently inspired a new kind of radar that's able to pinpoint hidden electronics like bomb triggers and surveillance devices. Move over dogs, man's officially found its new best friend.
Developed by researchers at the University of Southampton in England who were intrigued at how dolphins were still able to pinpoint fish they were hunting even in the middle of distracting clouds of underwater bubbles, the TWIPR—or twin inverted pulse radar—borrows techniques from the ocean's smartest inhabitants.
Namely, a technique where two signal pulses are sent out instead of one. This approach allows dolphins to distinguish between fish and bubbles, but with the TWIPR technology it can be used to detect electronics. When the pair of positive and negative pulses hit something like a tree, a rock, or even metal, they cancel each other out and disappear. But when the pulses hit a device made with semiconductors, the negative pulse becomes positive, doubling the signal and making the electronics very easy to spot.
What's particularly awesome is that the new technology—which could easily find a bomb hidden in a dumpster full of trash—measures just two inches in size and can be built from electronics costing less than a dollar. So putting it into production and into the hands of those in danger shouldn't require much further development. More here.
Developed by researchers at the University of Southampton in England who were intrigued at how dolphins were still able to pinpoint fish they were hunting even in the middle of distracting clouds of underwater bubbles, the TWIPR—or twin inverted pulse radar—borrows techniques from the ocean's smartest inhabitants.
Namely, a technique where two signal pulses are sent out instead of one. This approach allows dolphins to distinguish between fish and bubbles, but with the TWIPR technology it can be used to detect electronics. When the pair of positive and negative pulses hit something like a tree, a rock, or even metal, they cancel each other out and disappear. But when the pulses hit a device made with semiconductors, the negative pulse becomes positive, doubling the signal and making the electronics very easy to spot.
What's particularly awesome is that the new technology—which could easily find a bomb hidden in a dumpster full of trash—measures just two inches in size and can be built from electronics costing less than a dollar. So putting it into production and into the hands of those in danger shouldn't require much further development. More here.
Oct 22, 2013
Scientists Discover Gold Literally Growing on Trees in the Outback
Every parent's favorite line about how money doesn't grow on trees just became a little more irrelevant, thanks to a fascinating find down under. Researchers in Australia recently found gold—yes,real gold—in eucalyptus trees growing in the outback.
A team of unlikely prospectors recently ventured into the arid land of the Goldfields-Esperance region in Western Australia, hoping to learn more about what was underneath its soil. The area earned its name for being rich in gold deposits—that were, however, notoriously difficult to find. So the researchers looked in an unlikely place: The trees.
Eucalyptus trees in this region are known for their resiliency, and for roots that reach impossibly deep to find the groundwater needed to keep themselves alive. It just so turns out that the elusive gold deposits are down there, too.
Chasing a longstanding rumor that the trees' leaves get their gold luster from the deposits, the scientists analyzed the leaves of eucalyptus trees in the area—and sure enough, they found traces of gold. Apparently, the trees' roots grew ten stories deep into the soil and absorbed gold particles from nearby deposits. To confirm that these particles came from the soil under the roots, they grew eucalyptus trees in gold-laced potting soil in a greenhouse. And sure enough—they found gold in those leaves, too.
The idea that plants absorb minerals from the soil around them is hardly new, but this is an extraordinary case. "Gold is probably toxic to plants and is moved to its extremities (such as leaves) or in preferential zones within cells in order to reduce deleterious biochemical reaction," reads a study about the research published today in Nature Communications. The authors also point out that this is "the first evidence of particulate gold within natural specimens of living biological tissue." That's a hell of a first, even for you alchemy nerds out there.
Don't go thinking you can get rich by cutting down eucalyptus trees, though. Each tree contains such a small amount of gold—46 parts per billion, to be exact—that it would take hundreds to compile enough for a wedding ring. But the trees could be used to scout the location of underground gold deposits. And since approximately 30 percent of the world's gold reserves are thought to lie underground in the Goldfields-Esperance region, the search may be well worth the trouble. More here.
A team of unlikely prospectors recently ventured into the arid land of the Goldfields-Esperance region in Western Australia, hoping to learn more about what was underneath its soil. The area earned its name for being rich in gold deposits—that were, however, notoriously difficult to find. So the researchers looked in an unlikely place: The trees.
Eucalyptus trees in this region are known for their resiliency, and for roots that reach impossibly deep to find the groundwater needed to keep themselves alive. It just so turns out that the elusive gold deposits are down there, too.
Chasing a longstanding rumor that the trees' leaves get their gold luster from the deposits, the scientists analyzed the leaves of eucalyptus trees in the area—and sure enough, they found traces of gold. Apparently, the trees' roots grew ten stories deep into the soil and absorbed gold particles from nearby deposits. To confirm that these particles came from the soil under the roots, they grew eucalyptus trees in gold-laced potting soil in a greenhouse. And sure enough—they found gold in those leaves, too.
The idea that plants absorb minerals from the soil around them is hardly new, but this is an extraordinary case. "Gold is probably toxic to plants and is moved to its extremities (such as leaves) or in preferential zones within cells in order to reduce deleterious biochemical reaction," reads a study about the research published today in Nature Communications. The authors also point out that this is "the first evidence of particulate gold within natural specimens of living biological tissue." That's a hell of a first, even for you alchemy nerds out there.
Don't go thinking you can get rich by cutting down eucalyptus trees, though. Each tree contains such a small amount of gold—46 parts per billion, to be exact—that it would take hundreds to compile enough for a wedding ring. But the trees could be used to scout the location of underground gold deposits. And since approximately 30 percent of the world's gold reserves are thought to lie underground in the Goldfields-Esperance region, the search may be well worth the trouble. More here.
A Headphone Jack Laser Pointer That No One Will Be Able To Spot
Don't let anyone tell you otherwise; highlighting a character's crotch on-screen at the movies is hi-larious, and always will be. But getting caught with a laser pointer in your hand and tossed out of the theater isn't. So thankfully red lasers have been around for decades, and have been miniaturized to the point where they can hide inside your smartphone's headphone jack.
Designed strictly for safe work purposes like highlighting information during a presentation, the iPinsips power from your iPhone but shouldn't drain its battery unless left on for endless hours. Speaking of which, the laser is activated using a free accompanying app, and it even has a safety to ensure it can't be accidentally turned on when you don't need it. You just turn the laser 90 degrees when it's inserted in the headphone jack and it will remain inert until you turn it back.
At just over $40 it is considerably expensive given red laser pointers are almost as cheap as penny candy these days. But what you're mostly paying for here is a covert way to harass and annoy people. Note: please don't harass and annoy people with this. More here.
Designed strictly for safe work purposes like highlighting information during a presentation, the iPinsips power from your iPhone but shouldn't drain its battery unless left on for endless hours. Speaking of which, the laser is activated using a free accompanying app, and it even has a safety to ensure it can't be accidentally turned on when you don't need it. You just turn the laser 90 degrees when it's inserted in the headphone jack and it will remain inert until you turn it back.
At just over $40 it is considerably expensive given red laser pointers are almost as cheap as penny candy these days. But what you're mostly paying for here is a covert way to harass and annoy people. Note: please don't harass and annoy people with this. More here.
Oct 21, 2013
Scientists Just Took a Huge Step Towards Curing Baldness
Hair plugs, comb overs and toupĂ©es beware; a team of researchers from Columbia has developed a way to induce new human hair growth for the first time ever. It’s not just the fact that they can just grow hair that’s so exciting, though. It’s that they can grow yourhair.
The technique centers on the behavior of human dermal papilla cells, the ones that make up the base of hair follicles. While the idea of using dermal papilla cells to generate new hair growth has been around for about 40 years, scientists have had a hard time doing it since the cells simply revert back to basic skin cells when they’re put into a culture. Rodent papillae, however, don’t have that problem, because they clump together and make it easier for the cells to communicate with each other.
Taking a cue from the rodent example, the Columbia researchers figured out how to encourage the human papillae to aggregate in a culture. After harvesting samples from human donors, the researchers transplanted the cells between the dermis and epidermis of human skin and grafted them onto the backs of mice. After a few days, scientists found that the hair was growing like normal. Sure, the human hair was growing on the backs of mice, but they matched up with the donors perfectly.
A magical hair growth tonic is probably still at least a few years away, if it's coming at all. But at least we’re headed in the right direction. More here.
The technique centers on the behavior of human dermal papilla cells, the ones that make up the base of hair follicles. While the idea of using dermal papilla cells to generate new hair growth has been around for about 40 years, scientists have had a hard time doing it since the cells simply revert back to basic skin cells when they’re put into a culture. Rodent papillae, however, don’t have that problem, because they clump together and make it easier for the cells to communicate with each other.
Taking a cue from the rodent example, the Columbia researchers figured out how to encourage the human papillae to aggregate in a culture. After harvesting samples from human donors, the researchers transplanted the cells between the dermis and epidermis of human skin and grafted them onto the backs of mice. After a few days, scientists found that the hair was growing like normal. Sure, the human hair was growing on the backs of mice, but they matched up with the donors perfectly.
A magical hair growth tonic is probably still at least a few years away, if it's coming at all. But at least we’re headed in the right direction. More here.
Oct 19, 2013
Would This Bike With Storage Inside the Front Wheel Even Be Rideable?
Weighing in at around 25 pounds, you're not going to find many cyclists adopting the Transport, but its creators claim that's about as heavy as your average road bike, so it's perfect for commuters.
They also point out that since the modified front tire is made from lightweight plastic, it weighs the same as a standard road bike tire too—except that doesn't take into account the weight of the extra crap you toss in there. Once a backpack filled with a laptop, clothing, and other daily accessories is stuffed inside, that front wheel is bound to feel quite a bit different, particularly when cornering. What do you think? More here.
They also point out that since the modified front tire is made from lightweight plastic, it weighs the same as a standard road bike tire too—except that doesn't take into account the weight of the extra crap you toss in there. Once a backpack filled with a laptop, clothing, and other daily accessories is stuffed inside, that front wheel is bound to feel quite a bit different, particularly when cornering. What do you think? More here.
Oct 18, 2013
This Thermal Wristband Tricks You Into Never Being Too Warm or Cold
We all know someone who can never seem to get comfy, no matter the temperature. They're always pulling off sweaters because they're too hot, or cranking up the heat because they're too cold. But soon, salvation for these folks could come in the form of a special wristband that uses a copper heatsink to fool your body into thinking it's just been warmed or cooled—when in reality, the ambient temperature hasn't changed.
The technology—developed by researchers at MIT and dubbed Wristify—relies on a phenomenon where rapid external temperature changes on a person's skin can actually affect how their whole body feels. So the wristband—powered by a lithium polymer battery for up to eight hours—delivers rapid but subtle thermal pulses that change at a rate of 0.4 degrees celsius every second.
Raising or lowering the temperature of those thermal pulses will actually make the wearer's entire body feel as if it's getting warmer or cooler, allowing them to get comfy without having to touch a thermostat or change their wardrobe. It would also allow a building to reduce its heating or cooling needs if everyone inside had a Wristify strapped to their arm, which might not seem so implausible if the technology was built into the many smartwatches on the horizon. More here.
The technology—developed by researchers at MIT and dubbed Wristify—relies on a phenomenon where rapid external temperature changes on a person's skin can actually affect how their whole body feels. So the wristband—powered by a lithium polymer battery for up to eight hours—delivers rapid but subtle thermal pulses that change at a rate of 0.4 degrees celsius every second.
Raising or lowering the temperature of those thermal pulses will actually make the wearer's entire body feel as if it's getting warmer or cooler, allowing them to get comfy without having to touch a thermostat or change their wardrobe. It would also allow a building to reduce its heating or cooling needs if everyone inside had a Wristify strapped to their arm, which might not seem so implausible if the technology was built into the many smartwatches on the horizon. More here.
Oct 17, 2013
You'll Barely Notice the World's Smallest USB 3.0 Flash Drive
When it comes to prolonging the life of your laptop, there's no easier upgrade than adding an ultra-compact USB flash drive to expand its storage capacity—particularly if it's got a small SSD on board. And a company called PKparis is now laying claim to the title of 'world's smallest USB 3.0 flash drive' with its new K’1 that more than looks the part.
Available in 32GB and 64GB capacities for $48 and $89 respectively, the aluminum drives offer read and write speeds up to 140 MB/s, and they even include a tiny LED activity light. You'll of course want to make sure your laptop is already equipped with USB 3.0 to take full advantage of the K'1's capabilities, and once it's plugged in you'll never have to worry about losing it—or even noticing it for that matter. More here.
Available in 32GB and 64GB capacities for $48 and $89 respectively, the aluminum drives offer read and write speeds up to 140 MB/s, and they even include a tiny LED activity light. You'll of course want to make sure your laptop is already equipped with USB 3.0 to take full advantage of the K'1's capabilities, and once it's plugged in you'll never have to worry about losing it—or even noticing it for that matter. More here.
Why Exercise When You Can Buy a $50 Fake-Muscle T-Shirt?
Fifty bucks might sound expensive for an undershirt, but not when it means you can cancel your gym membership, stop buying gallons of protein powder, and sell all of your home gym equipment. Because not only does the Funkybod t-shirt promise to camouflage manboobs, it also creates the illusion you've got a muscular toned physique, no matter how frail you might be in real life.
It's all thanks to a set of subtle plates—presumably made of a comfortable foam—that accentuate your shoulder, bicep, lat, pectoral, and shoulder muscles. Worn by itself the fake muscles are easy to spot, but when worn under another shirt no one will be able to tell you don't spend every morning at the gym. And the plates supposedly even feel like real muscle, so no one will be the wiser until you're forced to take your shirt off. Which means that if you spill on yourself, you'll be wearing that stained shirt all day until you get home. More here.
It's all thanks to a set of subtle plates—presumably made of a comfortable foam—that accentuate your shoulder, bicep, lat, pectoral, and shoulder muscles. Worn by itself the fake muscles are easy to spot, but when worn under another shirt no one will be able to tell you don't spend every morning at the gym. And the plates supposedly even feel like real muscle, so no one will be the wiser until you're forced to take your shirt off. Which means that if you spill on yourself, you'll be wearing that stained shirt all day until you get home. More here.
Oct 16, 2013
How a Lost Boy Used Google Earth to Find His Way Home After 25 Years
I Have Seen the Future and It's a One-Handed Magnetic Zipper
Under Armour is making the bold claim that it's finally "fixed zippers." And while its innovative new Magzip feature probably isn't going to change the entire world, it's still a vast improvement to clothing technology that hasn't evolved in in almost 100 years. It's also voodoo magic.
If you've ever fumbled trying to connect the two loose ends of a zipper—and really, who hasn't?—you'll immediately see the value in Under Armour's new approach that uses a strong magnet and a re-engineered clasp to automatically guide the two ends of a zipper together, allowing you to do up a coat with just one hand.
The idea for the Magzip actually came from an engineer named Scott Peters, who originally designed it to allow those dealing with conditions that inhibit their fine motor control and coordination to more easily dress themselves. Perfecting the mechanism required about 25 different prototypes, but the final version was patented and eventually licensed by Under Armour for a new line of clothing and jackets destined for a fall 2014 release. More here.
If you've ever fumbled trying to connect the two loose ends of a zipper—and really, who hasn't?—you'll immediately see the value in Under Armour's new approach that uses a strong magnet and a re-engineered clasp to automatically guide the two ends of a zipper together, allowing you to do up a coat with just one hand.
The idea for the Magzip actually came from an engineer named Scott Peters, who originally designed it to allow those dealing with conditions that inhibit their fine motor control and coordination to more easily dress themselves. Perfecting the mechanism required about 25 different prototypes, but the final version was patented and eventually licensed by Under Armour for a new line of clothing and jackets destined for a fall 2014 release. More here.
Oct 15, 2013
These Rorschach Ink Tests Could Replace the Good Old CAPTCHA
The CAPTCHA is a wonderful thing, but it's not without its failings. And as hackers get better and better at cracking them, a team of CMU engineers are proposing an alternative: Inkblot tests.
It's called a GOTCHA (of course), and it stands for Generating panOptic Turing Tests to Tell Computers and Humans Apart. The test was developed by three CMU researchers named Jeremiah Blocki, Manuel Blum, and Anupam Datta, who wanted to capitalize on our natural predilection to visual pattern recognition. Their test is a variant of a HOSP, or a Human-Only Solvable Puzzle, which defend against offline dictionary attacks by requiring human interaction with each password. In other words, these puzzles defend against attacks where hackers will try millions of different passwords in an attempt to access your account.
Here's how GOTCHA would work: When a user signs up for a service—a new email account, let's say—they'll be shown a series if inkblot tests and asked to describe them in a few words. Then, when they come back a few days later to sign in, they're presented with the same inkblot tests plus their original answers. They simply have to match up the answers with the correct images. That way, it's tougher for a computer to replicate not only the uniquely human ability to see visual patterns, but also to replicate that ability in the same way twice.
According to the team's October 7 paper—creatively titled GOTCHA Password Hackers!—the CMU team tested their design using a small sample of 70 through Amazon's Mechanical Turk. And while some participants didn't match their answers up correctly, there was good evidence that most users could trust their memories, and it's likely that the test could be tailored to be more consistent. More here.
It's called a GOTCHA (of course), and it stands for Generating panOptic Turing Tests to Tell Computers and Humans Apart. The test was developed by three CMU researchers named Jeremiah Blocki, Manuel Blum, and Anupam Datta, who wanted to capitalize on our natural predilection to visual pattern recognition. Their test is a variant of a HOSP, or a Human-Only Solvable Puzzle, which defend against offline dictionary attacks by requiring human interaction with each password. In other words, these puzzles defend against attacks where hackers will try millions of different passwords in an attempt to access your account.
Here's how GOTCHA would work: When a user signs up for a service—a new email account, let's say—they'll be shown a series if inkblot tests and asked to describe them in a few words. Then, when they come back a few days later to sign in, they're presented with the same inkblot tests plus their original answers. They simply have to match up the answers with the correct images. That way, it's tougher for a computer to replicate not only the uniquely human ability to see visual patterns, but also to replicate that ability in the same way twice.
According to the team's October 7 paper—creatively titled GOTCHA Password Hackers!—the CMU team tested their design using a small sample of 70 through Amazon's Mechanical Turk. And while some participants didn't match their answers up correctly, there was good evidence that most users could trust their memories, and it's likely that the test could be tailored to be more consistent. More here.
Oct 14, 2013
It's Raining Diamonds on Saturn and Jupiter
We're a little late to the party on this one, but it's just too fascinating to pass up. A team of planetary scientists recently claimed that the mix of methane, carbon and lightning in Saturn's atmosphere is causing diamonds to be forged in the planet's atmosphere. Like, a lot of diamonds.
"The bottom line is that 1,000 tons of diamonds a year are being created on Saturn," Dr. Kevin Baines of NASA's Jet Propulsion Laboratory recently told the BBC. "People ask me, 'How can you really tell? Because there's no way you can go and observe it.' " Baines explained, "It all boils down to the chemistry. And we think we're pretty certain."
The chemistry is actually pretty simple. Saturn's atmosphere is mostly made up of hydrogen and methane, but when storms crop up, the lightning fries the methane, producing pure hydrogen and burnt carbon, a.k.a. soot. As the clouds of soot fall towards the planet, they clump together forming graphite, and as the pressure builds up closer to the planet's core, that graphite is compressed into pure diamond. So it's literally raining diamonds on Saturn. The scientists think the same thing might be happening on Jupiter.
Does this do us any good? Not right now. It's pretty hard to get to Saturn and Jupiter and to get down to where the diamonds are would be pretty tough since the pressure there is about 100,000 times what it is at sea level on Earth. And if we don't catch them fast enough, the diamonds eventually fall into the core and melt. Nobody wants a melted diamond necklace. More here.
"The bottom line is that 1,000 tons of diamonds a year are being created on Saturn," Dr. Kevin Baines of NASA's Jet Propulsion Laboratory recently told the BBC. "People ask me, 'How can you really tell? Because there's no way you can go and observe it.' " Baines explained, "It all boils down to the chemistry. And we think we're pretty certain."
The chemistry is actually pretty simple. Saturn's atmosphere is mostly made up of hydrogen and methane, but when storms crop up, the lightning fries the methane, producing pure hydrogen and burnt carbon, a.k.a. soot. As the clouds of soot fall towards the planet, they clump together forming graphite, and as the pressure builds up closer to the planet's core, that graphite is compressed into pure diamond. So it's literally raining diamonds on Saturn. The scientists think the same thing might be happening on Jupiter.
Does this do us any good? Not right now. It's pretty hard to get to Saturn and Jupiter and to get down to where the diamonds are would be pretty tough since the pressure there is about 100,000 times what it is at sea level on Earth. And if we don't catch them fast enough, the diamonds eventually fall into the core and melt. Nobody wants a melted diamond necklace. More here.
Oct 12, 2013
Sleeping In Public Just Keeps Getting Easier
Like ostriches themselves, the Ostrich Pillow is enigmatic and generally fascinating. Who would use it? Is it appropriate for children? Is it a sex toy? Hard to say! But it looks downright comfortable for napping. The only issue is carrying it.
With that thing hanging out of your bag it's pretty obvious that you're getting read to rob a bank and then sleep it off. That's why Ostrich Light is lifting its head out of the sand.
Ostrich Light is a sort of fleece earband/VISOR combo by Studio Banana Things that you can wear around your neck and then move onto your face when it's time to pass out. Or you can keep it in a bag until you're ready to use it like a reasonable person. It looks soft and cushy, but also packable which is the whole point of this redesign. Ostrich Light raised more than $6,000 in its first day on Kickstarter and its goal is $40,000 (£25,000).More here.
With that thing hanging out of your bag it's pretty obvious that you're getting read to rob a bank and then sleep it off. That's why Ostrich Light is lifting its head out of the sand.
Ostrich Light is a sort of fleece earband/VISOR combo by Studio Banana Things that you can wear around your neck and then move onto your face when it's time to pass out. Or you can keep it in a bag until you're ready to use it like a reasonable person. It looks soft and cushy, but also packable which is the whole point of this redesign. Ostrich Light raised more than $6,000 in its first day on Kickstarter and its goal is $40,000 (£25,000).More here.
Oct 11, 2013
This Bronze Candle Will Burn Forever and Never Melt Away
Given how important it's been to our development, mankind will always be drawn to open flames. But if you're tired of buying tea light candles in bulk for a little bit of accent lighting,Fabien Gerlier's Caviar might be better suited to adding accent lighting to your home. Made of sintered bronze, the lamp stays lit without ever burning away.
So what exactly is sintered bronze? Think of it kind of like a metallic styrofoam, but instead of being composed of thousands of tiny granules of foam, it's made of endless tiny specks of bronze. And since the material isn't solid, it allows gas from a fuel reservoir to seep through, and that's what's actually seen burning, not the lamp itself.
Want to buy one? That's unfortunate, because the Caviar lamp is sadly just a thesis project by Gerlier who's working towards getting his masters in product design. But while you can't buy one now, there's no reason to think the lamp couldn't one day go into production. More here.
So what exactly is sintered bronze? Think of it kind of like a metallic styrofoam, but instead of being composed of thousands of tiny granules of foam, it's made of endless tiny specks of bronze. And since the material isn't solid, it allows gas from a fuel reservoir to seep through, and that's what's actually seen burning, not the lamp itself.
Want to buy one? That's unfortunate, because the Caviar lamp is sadly just a thesis project by Gerlier who's working towards getting his masters in product design. But while you can't buy one now, there's no reason to think the lamp couldn't one day go into production. More here.
Oct 10, 2013
Adding a Little Heat Could Give Us a 40 TB Hard Drive in a Few Years
In layman's terms, it's actually easier to induce and reverse a magnetic field—which is how data is written and read in a hard drive—as the temperature increases. So TDK has developed a laser system to temporarily heat the area where data is being written, which in turn allows them to squeeze more bits onto a platter.
The breakthrough that made this new approach possible was the development of a laser, which TDK refers to as a near-field light generator, that creates a beam that's just tens of nanometers wide—any larger and you risk erasing data around the area where it's being written. And for comparison, that beam's about 1/10 as wide as the lasers used to read a Blu-ray disk—so we're talking seriously tiny.
The technology could very well be the next big leap needed to push hard drive capacities to the next level, and TDK is confident it could be implemented in commercial products as early as late 2015. More here.
Oct 9, 2013
This Dongle Lets You Use Your Laptop's Keyboard With Your Phone
There are almost as many wireless Bluetooth keyboards on the market as there are Bluetooth speakers. But why spend money on yet another keyboard for your mobile devices when there's probably already a perfectly good one on your laptop? With this Bluetooth USB transmitter dongle from Buffalo, the keyboards you already have can also work on your smartphone or tablet.
Using a small application that runs under OS X and Windows, you can choose to have your computer's keyboard work with your PC, or re-route every keystroke to a mobile device connected over Bluetooth instead. It's that easy, and for $43 it means you don't have to travel with a separate keyboard. And as an added bonus, your laptop's tilting display makes for a perfect smartphone stand when you're pounding out longer messages.
Of course, why anyone would actually need to type on their smartphone or tablet while their laptop is out and powered up is another question, so perhaps this is a solution still looking for a problem to solve—but it's still a neat trick. More here.
The Only Acceptable Way To Shovel Food Into Your Mouth
Your parents probably weren't too keen when you were cramming food in your mouth at the dinner table like a feral child. But you're all grown up now; you can eat however you want. And if that includes the use of a spoon that looks like the heavy-duty scoop you'll find on a construction site backhoe, so be it.
The only problem with the $10 Dinner Digger is that you might have a hard time cramming it into your mouth. But you lived off Doritos and Fanta through four years of college, as far as dining challenges go, this is a tiny speed bump—not a brick wall. With the right angling you can simply dump a massive scoop of corn flakes right into your gaping maw. More here.
The only problem with the $10 Dinner Digger is that you might have a hard time cramming it into your mouth. But you lived off Doritos and Fanta through four years of college, as far as dining challenges go, this is a tiny speed bump—not a brick wall. With the right angling you can simply dump a massive scoop of corn flakes right into your gaping maw. More here.
Oct 8, 2013
Disney Lets You Feel Textures On a Touchscreen By Zapping Your Fingers
So how is such sorcery even possible? The researchers realized that the sensation of feeling a bump on a surface largely came from the skin on a fingertip being pulled and stretched as it moved across the raised area. And it turns out that this same sensation can be artificially created on a perfectly flat surface using electrovibration to generate electrostatic forces that create friction against a moving finger.
The other half of this breakthrough is a custom algorithm developed by Disney's research team that generates these frictional forces on the fly, based on what's being displayed on screen. So a stack of DVD cases would feel like a series of bumps, where as a ball would feel more like a large gradually curved surface. The technique is basically fooling the brain into thinking its experiencing something it really isn't, but the results are apparently remarkably convincing.
And the applications for this technology go well past just a cute interactive picture book that kids can also touch. This could make typing or playing joystick-based games on a phone or tablet actually enjoyable, and it would most definitely revolutionize how those with visual impairments use mobile devices. More here.
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