Category: Technology

The Future is Here: The Invisibility Cloak!

quantum-stealth-fieldInvisibility cloaks have long been considered the next frontier of modern warfare. With stealth aircraft, stealth ships and even stealth tanks in service or on well on their way, it seems like the time is ripe for a stealth soldier. But difficulties remains. Whereas cloaking planes, ships and tanks is a matter of simply coating them in materials that can obscure them from radar and thermal imagine, soldiers need camouflage that can move, bend and flex with them.

In recent years, the efforts to produce a working “invisibility cloak” have born considerable fruit. And while most of these took the form of large, cumbersome, desk-mounted constructions that were more of a proof of concept for the material being tested, they did demonstrate that the technology itself worked. This was certainly true of the “cloak” which was created by scientists at Duke University in November of 2012.

INVISIBILITY-CLOAKAnd then came news the following month that a Canadian company named Hyperstealth developed a material that renders the wearer “completely invisible by bending light waves around the target.” Known as “Quantum Stealth”, this true cloak is an apparent follow-up to their SmartCamo – a material that could reportedly adjust its camouflage markings to match its surroundings – that was released at the International Camouflage Symposium in 2010.

Unfortunately, due to security reasons, little was ever known about SmartCamo other than its reported abilities. The same holds true for Quantum Stealth, which the company has been forced to remain clandestine about due the demands of the US Army, to whom they are contracted. So until such time as it enters widespread use, the details and inner workings of the technology will remain inaccessible.

invisibility_cloak1Luckily, the University of Texas in Austin is under no such constrictions, and it is from them that the latest and greatest news comes. In addition to being composed of conventional materials, their new cloak measures a mere 166 micrometers thick and is capable of obscuring an object from multiple directions at once. And though it may not be able to render a soldier truly invisible, it does render them all but invisible to radar detection, which is the intent here.

The fabrication process involved placing a 66µm-thick sheet of carbon (or a metascreen) onto a a 100µm-thick sheet of flexible polycarbonate. The copper is patterned specifically so that the scattered light from the cloak and the cloaked object cancel each other out. This flexible sheet also allows the cloak to conform to the shape of the object, or person, and provides cloaking from microwave radiation from all directions.

invisibility_cloak_uoftNow here’s where things get literal. The researchers responsible for this breakthrough have indicated that, in theory, this cloak could be used to cloak visible light as well. After all, microwaves, infrared and visible light are all physically identical; they are just waves that oscillate at different frequencies. And their design would be more capable of doing this than any cloak composed of metamaterials.

Still, size and scale are still an issue. Whereas their new patterned material scattering technique is capable of hiding an object from multiple directions, it also inversely scales with wavelength. That means that it is only capable of hiding micrometer-scale objects from 400-800THz of visible light. Still, this is exciting news and a step in the right direction!

Before we know it, stealth troopers could be marching all over the planet, invisible to the naked eye and any means of radar detection… Holy crap, what a scary thought! Is it too late to rethink this technology?

future_soldierSource: Extremetech.com, (2)

Introducing Google Nose (April Fools!)

google_noseGoogle, makers of the fame internet search engine, investors in future tech, and pioneers in commercial space flight (and no stranger to practical jokes, fyi) has just released a video for a new system known as Google Nose Beta. For too long, the video claims, people have been restricted when searching the internet, relying on clumsy explanations and words that just don’t capture the proper feel of what they are looking for.

And what’s more, the internet is so often a feast for the eyes and the ears, but sadly neglects an all-important sense that is so near and dear to our hearts. When it comes right down to it, our olfactory senses go beyond simply observing and witnessing and phenomena and make us a part of it. So why haven’t we found a way to include smells into our daily internet activity?

google_nose1Apparently, this new system combines “photons with infrasound waves” and “temporarily aligns molecules to emulate a particular scent,” Google Nose allows users to experience simulated smells from various environments. And when it comes to identifying them, users can rely on the “mobile aroma indexing program” at the heart of the product which has amassed a “15 million scentibyte database of smells from around the world.”

And this is just the latest in a long string of quirky (and hilariously impossible) inventions brought to you by Google. Who can forget the 2007 TiSP, “a self-installed, ad-supported online service that will be offered entirely free to any consumer with a WiFi-capable PC and a toilet connected to a local municipal sewage system.” And what about Gmail Paper, a service that Google said would allow Gmail users to request paper copies (via postal service, of course) of their emails?

Google_nose2Sound too good to be true? Well that’s because it is, not to menti0n pretty damn ridiculous. But like any good sci-fi geek, it made me wonder, “just what would it take to make something like this real?” Within seconds, I was wondering if a quantum internet could theoretically beam particles into your laptop that would simulate a certain scent, but that’s as far as I got.

I think that’s the downside to being a geek. Our imaginations often mean we have a tenuous grasp on what’s real and what’s not. In the meantime, check out the hilarious video below, and learn more about this latest prank by clicking here.

Source: huffingtonpost.com

How to Ninja Proof a House

ninjahomeinvasionFrom the good people who brought you “How to zombie-proof a house” comes the latest in sensible real-estate planning. This time round, it is how you go about protecting your home from ninja intrusion. Using a full-page infographic with multiple panels, which you can check out here, all the countermeasures you will need to know are listed.

Combining ancient know-how with modern technology, these counter-measures include:

  • Squeaky floors
  • Security cameras
  • Fire suppression systems
  • Maze-like hallways
  • Powerful ventilation
  • High-tech locks
  • Facial recognition software
  • Smart floors
  • Gravel Yards
  • Steel walls and ceilings
  • Tall and curved outer walls

ninja.jpgWhat impresses me about all of this, aside from the time and thought dedicated to it, is how well it merges knowledge from feudal Japan with modern home defense systems. For example, feudal barons who feared assassination during Japan’s Sengoku (or “Warring States”) Period would have rooms in their fortress built with long wooden panels that would ensure they would squeak when stepped on. These were often combined with trap doors to ensure that anyone skilled enough to slip inside would find themselves in a jam quickly!

Gravel yards placed at intervals throughout their estates and round, vertical walls were also popular tricks to ensure easier detection and to give ninjas a harder time of getting inside. And of course, narrow, winding hallways also ensured that a single or group of infiltrators would have a harder time finding their way and could be ambushed when they came around a corner.

Cyber Ninja Artart, alphacoders.com
Cyber Ninja Artart, alphacoders.com

Combining all this with the latest in alarm systems, biometric locks, facial recognitions software, security cameras, environmental controls and fire sprinklers, you’ve got a pretty handy arsenal with which to fight off skilled assassins and masters of stealth. And  let’s face it, modern ninjas have no doubt updated their repertoire to take advantage of the latest in tech as well, which would most likely include night vision, thermal imaging, flashbangs, airgun grappling hooks, and possibly even knock-out gas.

Were ninjas to become a credible threat to our safety and well-being, this is undoubtedly the kind of database we would want to consult. And as we all know, ninjas are cool! When zombies go the way of vampires and witches, aka. become somewhat of a tired cliche, I’m sure these guys will be in line to become the next big craze!

Ninja Games

The Future is Here: The (Super) Supercapacitor

supercapacitor_movieLast year, researchers at UCLA made a fantastic, albeit accidental, when a team of scientists led by chemist Richard Kaner devised an efficient method for producing high-quality sheets of graphene. This supermaterial, which won its developers the 2010 Nobel Prize in Physics, is a carbon material that is known for its incredible strength and flexibility, which is why it is already being considered for use in electronic devices, solar cells, transparent electrodes, and just about every other futuristic high-tech application.

Given the fact that the previous method of producing graphene sheets (peeling it with scotch tape) was not practical, the development of the new production process was already good news. However, something even more impressive happened when Maher El-Kady, a researcher in Kaner’s lab, wired a small square of their high quality carbon sheets to a lightbulb.

supercapacitor1After showing it to Dr. Kaner, the team quickly realized they had stumbled onto a supercapacitor material – a high-storage battery that also boasts a very fast recharge rate – that boasted a greater energy storage capacity than anything currently on the market. Naturally, their imaginations were fired, and their discovery has been spreading like wildfire through the engineering and scientific community.

The immediate benefit of batteries that use this new material are obvious. Imagine if you will having a PDA, tablet, or other mobile device that can be charged within a matter of seconds instead of hours. With batteries so quick to charge and able to store an abundant supply of volts, watts, or amperes, the entire market of consumer electronics would be revolutionized.

electric_carBut looking ahead, even greater applications become clear. Imagine electric cars that only need a few minute to recharge, thus making the gasoline engine all but obsolete. And graphene-based batteries could be making an impact when it comes to the even greater issue of energy storage with regards to solar and other renewable energy sources.

In the year since they made their discovery, the researchers report that El-Kady’s original fabrication process can be made even more efficient. The original process involved placing a solution of graphite oxide on a plastic surface and then subjecting it to lasers to oxigenate and turn the solution into graphene. A year ago, the team could produce only a few sheets at a time, but now have a scalable method which could very quickly lead to manufacturing and wide-scale technological implementation.

solar_array1As it stands, an electric car with a recharge rate of a few minutes is still several years away. But Dr. Kaner and his team expect that graphene supercapacitors batteries will be finding their way into the consumer world much sooner than anyone originally expected.  According to Kaner, his lab is already courting partners in industry, so keep your eyes pealed!

Combined with the new technologies of lithium-ion and nanofabricated batteries, we could be looking at a possible solution to the worlds energy problem right here. What’s more, it could be the solution that makes solar, wind, and other renewable sources of energy feasible, efficient, and profitable enough that they will finally supplant fossil fuels and coal as the main source of energy production worldwide.

Only time will tell… And be sure to check out the video of Dr. Kaner and El-Kady showing off the process that led to this discovery:


Source: IO9.com

2013, As Imagined By 1988

bladerunnerTwenty-five years ago, Los Angeles magazine envisioned what the world would look like in the current decade. And unlike Blade Runner, they avoided the cool but standard science fiction allegories – like massive billboards, flying cars and sentient robots – and went straight for the things that seemed entirely possible by contemporary standards.

The cover story of the magazine’s April 3, 1988 edition showed a futuristic downtown L.A. crisscrossed with electrically charged, multi-tiered freeways permeated by self-driving cars. The article itself then imagined a day in the life of the fictional Morrow family of the L.A. suburb Granada Hills, as “profiled” by the magazine in 2013 by science fiction writer Nicole Yorkin.

LAtimes_2013aIronically, the magazine did not envision that it would one day go out of business, or that print media would one day be lurching towards extinction. Nevertheless, the fictional article and the world it detailed were interesting reading. Little wonder then why, earlier this month, the LA Times along with an engineering class at USC, revisited the archives to assess what it predicted correctly versus incorrectly.

Together, pro­fess­or Jerry Lock­en­our and his class made a list of the hits and misses, and what they found paints a very interesting picture of how we predict the future and how its realization so often differs from what we expect. Of the major predictions to be found in LA of the 2013, as well as in the lives of the Morrow family (get it?), here is what they got right:

Smart-Houses:
smart-house_vCe6I_25016In the article, the Morrows are said to begin every morning when their “Smart House” automatically turns on. This consists of all the appliances activating and preparing them breakfast, and no doubt turning on all the environmental controls and opening the shades to get the temperature and ambient lighting just right.

While this isn’t the norm for the American family yet, the past few years have proved a turning point for home devices hooking up with the Internet, to become more programmable and serve our daily needs. And plans are well under way to find a means of networking them all together so they function as one “smart” unit.

Self-Driving Cars:
chevy_env_croppedThe writers of the article predicted that by 2013, cars would come standard with computers that control most of the settings, along with GPS systems for navigation. They also predict self-driving cars, which Google and Chevy are busy working on. In addition to using clean, alternative energy sources, these cars are expected to be able t0 self-drive, much in the same way a pilot puts their plane on auto-pilot. Drivers will also be able to summon the cars to their location, connect wirelessly to the internet, and download apps and updates to keep their software current.

But of course, they got a few things wrong as well. Here they are, the blots on their predictive record:

Homeprinted newspapers:
news_appThe article also predicts that each morning the Morrows would begin their day with a freshly printed newspaper, as rendered by their laser-jet printer. These would be tailor-made, automatically selecting the latest news feeds that would be of most interest to them. What this failed to anticipate was the rise in e-media and the decline of printed media, though hardly anyone would fault them for this. While news has certainly gotten more personal, the use of tablets, ereaders and smartphones is the way the majority of people now read their selected news.

Robot servants and pets:
kenshiro_smallIn what must have seemed like a realistic prediction, but which now comes across as a sci-fi cliche, the Morrows’ home was also supposed to come equipped with a robotic servant that had a southern accent. The family’s son was also greeted every morning by a robot dog that would come to play with him. While we are certainly not there yet, the concept of anthropomorphic robot assistants is becoming more real every day. Consider, for example, the Kenshiro robot (pictured at right), the 3D printed android, or the proposed Roboy, the Swiss-made robotic child. With all of these in the works, a robotic servant or pet doesn’t seem so far-fetched does it?

Summary:
Between these four major predictions and which came to be true, we can see that the future is not such an easy thing to predict. In addition to always being in motion, and subject to acceleration, slowing and sudden changes, the size and shape of it can be very difficult to pin down. No one can say for sure what will be realized and when, or if any of the things we currently take for granted will even be here tomorrow.

Alpha Moon Base at http://www.smallartworks.ca
Alpha Moon Base at http://www.smallartworks.ca

For instance, during the 1960’s and 70’s, it was common practice for futurists and scientists to anticipate that the space race, which had culminated with humans setting foot on the moon in 1969, would continue into the future, and that humanity would be seeing manned outposts on the moon by and commercial space flight by 1999. No one at the time could foresee that a more restrictive budget environment, plus numerous disasters and a thawing of the Cold War, would slow things down in that respect.

In addition, most predictions that took place before the 1980’s completely failed to predict the massive revolution caused by miniaturization and the explosion in digital technology. Many futurist outlooks at the time predicted the rise in AI, but took it for granted that computers would still be the size of a desk and require entire rooms dedicated to their processors. The idea of a computer that could fit on top of a desk, let alone on your lap or in the palm of your hand, must have seemed farfetched.

CyberspaceWhat’s more, few could predict the rise of the internet before the late 1980’s, or what the realization of “cyberspace” would even look like. Whereas writer’s like William Gibson not only predicted but coined the term, he and others seemed to think that interfacing with it would be a matter of cool neon-graphics and avatars, not the clean, page and site sort of interface which it came to be.

And even he failed to predict the rise of such things as email, online shopping, social media and the million other ways the internet is tailored to suit the average person and their daily needs. When it comes right down to it, it is not a dangerous domain permeated by freelance hacker “jockeys” and mega-corporations with their hostile counter-intrusion viruses (aka. Black ICE). Nor is it the social utopia promoting open dialogue and learning that men like Bill Gates and Al Gore predicted it would be in the 1990’s. If anything, it is an libertarian economic and social forum that is more democratic and anarchistic than anyone could have ever predicted.

But of course, that’s just one of many predictions that came about that altered how we see things to come. As a whole, the entire thing has come to be known for being full of shocks and surprises, as well as some familiar faces. In short, the future is an open sea, and there’s no telling which way the winds will blow, or what ships will make it to port ahead of others. All we can do is wait and see, and hopefully trust in our abilities to make good decisions along the way. And of course, the occasional retrospective and issue congratulations for the things we managed to get right doesn’t hurt either!

Sources: factcoexist.com, LATimes.com

News From Space: SpaceXs Reusable “Grasshopper” Rocket

spaceX_elonmuskThe concept of commercial spaceflight has been growing considerably in recent years. Basically, the idea is that it would be private aerospace companies that would responsible for ferrying people to and from space and putting commercial satellites in orbit, thus leaving space agencies free to conduct more crucial research and deep space exploration missions.

Intrinsic to this dream is the creation of a cheaper, reusable rocket system, something that can be deployed, landed, and redeployed. This will not only save the companies responsible for this new age of space travel billions of dollars, it will make a whole series of projects possible – like Space-Based Solar Power (SBSP) arrays, commercial trips to the Moon, and bigger, more elaborate space stations in orbit.

spacex_grasshopperAnd that’s precisely what SpaceX founder Elon Musk is working on with his “Grasshopper” rocket system. Designed to be reusable, the company has been running the Grasshopper through an ongoing series of tests to make sure it can take off, achieve orbit, and then successfully return to the Earth and land in one piece. In the latest test, the Grasshopper achieved its highest flight yet – reaching 80 meters (263 feet) – before sticking its landing.

The flight took place on March 7th, and it was the fourth of its kind to be conducted at the SpaceX’s rocket development facility in McGregor, Texas. And though the flight was unmanned, the crews placed a dummy dressed like Johnny Cash into the side, which might explain why the footage of the test featured the song “Ring of Fire” in the background.

spacex-grasshopper-highest-leapWhile this achievement might seem modest to some, its necessary to keep in mind that this is a very new concept. In addition, with each successive flight, the altitudes achieved have increased exponentially. In its first test flight in September of last year, the Grasshopper reached a height of only 2.5 meters (8.2 feet). In the two following tests in November and December, the rocket reached a height of 5.4 meters (17.7 feet) and 40 meters (131 feet) respectively.

With this latest flight, SpaceX believes it is getting close to their goal of a reusable rocket and its ultimate goal of making space travel cheaper and easier. Upon completion of this latest test, the company had positive things to say about the new rocket system:

With Grasshopper, SpaceX engineers are testing the technology that would enable a launched rocket to land intact, rather than burning up upon reentry to the Earth’s atmosphere.

Who knows? Given a few more tests, they might just be able to break atmo and land successfully. Then, all SpaceX has to do is sit back and watch their stock price jump by about a million points. At which time, I’m thinking missions will pour in for the deployment of just about any bit of space gear imaginable! Welcome to the era of renewed space exploration, my friends!

And be sure to check out this video of the Grasshopper makings its most recent jump!

Source: space.com

Powered By the Sun: The Solar Island

solar4As Climate Change becomes an ever increasing problem, nations are turning to alternative technologies and geological engineering to offset the effects. This means significant investments being made in technologies such as solar cells and other clean energies. However, the question of where to put all the resulting arrays is one which cannot be overlooked. Since we are trying to save the environment, it doesn’t exactly make sense to clear more tracts of land to make room for them.

Already, there is a land rush to build more solar power plants all around the world. In the U.S., the Department of Interior is currently processing leases for roughly 1.8 million acres in the West alone. Globally, solar photovoltaic (PV) capacity has been doubling annually, with another 16 gigawatts of power added just in 2010. At this rate, and considering how much space is needed to set up the average array, we could run out of room real fast!

solar_islandAnd yet, the one thing that accounts for the majority of the planet’s surface area has been sadly neglected up until this point. I am of course referring to the oceans, lakes, reservoirs, retention ponds, and all other natural or unnatural bodies of water. As they account for over three-quarters of the planet’s real estate, they are quickly being targeted as the new frontier for floating solar power plants, with companies and locations being considered from India to Europe, to Napa Valley.

One of the more ambitious plans comes to us from Switzerland, will a proposed array will be built on Lake Neuchâtel later this year. As a collaborative effort between the solar developer Nolaris and the Swiss energy company Viteos, the proposed floating array will be the first of three set upon the lake. Each island will measure some 25 meters in diameter, be built from plastic and steel, and support 100 photovoltaic cells that will rotate with the sun.

solar_island1What’s more, this is just one of several ideas under consideration. Other companies pursuing this concept are favoring floating pontoons with individual photovoltaic assemblies on the water’s surface. In this case, concentrating lenses will focus the sunlight on a solar cell while a simple motor, light sensors, and software rotate the cells to maximize power generation. In tropical climes, where many pilot projects are being considered and storms are quite common, the entire array will be able to submerge as the winds rise.

In other places, where land is particularly expensive, floating solar may even come to rival its land-based counterpart. In Australia, for example, a company named Sunengy is pushing the concept of “Liquid Solar Array” technology, which they claim will be able to match the power output of a typical hydroelectric dam and cover less than 10% of the reservoir’s surface. They are currently teaming up with the Indian giant Tata Power to build India’s first floating solar power plant, and estimate that if India used just 1% of its 11,500 square kilometers of captured water it could generate the equivalent of 15 large coal-fired power stations.

As the saying goes, necessity is the mother of invention. And as it stands, planet Earth needs energy, and needs to generate it in such a way that won’t mess up the environment any further or usher in the scourge of Climate Change. When the survival of our planet and our species is at stake, you can expect people to get very inventive. Very, very inventive!

Source: factcoexist.com

Powered by the Sun: The Ion Cannon Solar Panel

solar5Hello and welcome back to my ongoing series of PBTS, dedicated to all the advancements being made in solar power. Today’s entry is an interesting one, and not just because it involves an ion cannon… well sort of! It comes to us courtesy of Twin Creeks, a solar power startup that has come up with a revolutionary way to generate photovoltaic cells that are half the price of those currently found on the market.

For many decades, solar power has been held back due to the fact that the cost has been prohibitive compared to fossil fuels and coal. By offering yet another way of cutting the cost of their production, Twin Creeks is bringing this clean alternative one step closer to realization. Ah, but here’s the real kicker: turns out that this revolutionary process involves a hydrogen ion particle accelerator!

hyperion-particle-accelerator1-640x353As has been mentioned in this series before, conventional solar cells are made from slicing 200-micrometer-thick (0.2mm) sections of silicon wafer from a large block. Then electrodes are added, a sheet of protective glass is placed on top, and they are placed in the sun to generate electricity. But of course, this approach has two serious drawbacks. One, a great deal of silicon is wasted in the production process. Two, the panels would if they were thinner than 200 micrometers, but silicon is brittle and prone to cracking if it’s too thin.

And this is where Twin Creeks ion cannon, aka. Hyperion, comes into play. It’s starts with a series of 3-millimeter-thick silicon wafers being placed around the outside edge of the big, spoked wheel (see above). The particle accelerator then bombards these wafers with hydrogen ions and, with exacting control of the voltage of the accelerator, the hydrogen ions accumulate precisely 20 micrometers from the surface of each wafer.

twin-creeks-hyperion-wafer-ii-flexibleA robotic arm then transports the wafers to a furnace where the ions expand into hydrogen gas, which cause the 20-micrometer-thick layer to shear off. A metal backing is applied to make it less fragile as well as highly flexible (as seen on the right). The remaining silicon wafer is taken back to the particle accelerator for another dose of ions. At a tenth of the thickness and with considerably less wastage, it’s easy to see how Twin Creeks can halve the cost of solar cells.

This process has been considered before, but the cost of a particle accelerator has always been too high. However, Twin Creeks got around this by building their own, one which is apparently “10 times more powerful” (100mA at 1 MeV) than anything on the market today. Because of this, they are able to guarantee a product that is half the cost of solar cells currently coming out of China. At that price, solar power truly begins to encroach on standard, fossil-fuel power.

But, of course, there still needs to be some development made on producing solar cells that can store energy overnight. Weather strictures, such as the ability to generate electricity only when its sunny out, remains another stumbling block that must be overcome. Luckily, it seems that there are some irons in that fire as well, such as research into lithium-ion and nanofabricated batteries. But that’s another story and another post altogether 😉

Stay tuned for more sun-powered hope for the future!

Source: Extremetech.com

The Walking Antarctic Research Station

antarctic_walkerFor years, Antarctic research stations have been plagued by environmental conditions that go far beyond the extreme cold. For one, there’s the problem of moving ice, which recedes towards the ocean at a rate of about 0.4 kilometers a year. On top of that, literally, there is the ice and snow accumulation, which threatens to bury any building placed on the continent. Because of this, research stations have a top life expectancy of about ten years in Antarctica. But that may be about to change…

Meet the Halley VI Antarctic research station, a mobile structure which began operations this past February. The brainchild of Hugh Broughton Architects, and established by the British Antarctic Survey (BAS), the station features extendable legs on giant skis. Comprised of eight interconnected modules, the station rests atop a series of retractable hydraulic legs which enable the structure to clear the rising ground each year. And when the station needs to be moved, a bulldozer can simply tow it to a new location.

Cutaway of an individual module
Cutaway of an individual
module

The base can also accommodate 50 research scientists in its segmented hull. Living accommodations and laboratories, clad in blue glass-reinforced plastic, are positioned on either side of a larger unit clad in red, which serves as a social nexus. This space is especially crucial to the well-being of the station, since its crew will live in it year-round and have to endure the permanent darkness, -60 degree temperatures, and 125-kilomer (100 mph) winds the continent is known for.

Home comforts include a hydroponic salad garden and a climbing wall within a double-height central space lined with Lebanese cedar, selected for its scent. The architect also worked with a color psychologist to identify “refreshing and stimulating” shades, and developed a bedside lamp with a daylight bulb to simulate sunrise.

Said architect Hugh Broughton of the creation of Halley VI:

It has been a fascinating project because it combines microscopic examples of many different building types – an operating theater, air traffic control, a power plant – rolled into 20,000 square feet.

And since this project has led to similar appeals being made by other national research groups – which include scientists from Spain, India and Korea – this could be merely the first of many such stations standing near the South Pole. Almost makes the idea of being there for a year conducting research sound fun, doesn’t it?

Sources: archrecord.construction.com, IO9.com

Apollo Rocket Engines Recovered from Seafloor

apollo_rocketThis past week, history was made when Jeff Bezos (founder of Amazon.com) and his privately funded company, Bezos Expeditions, announced that they had successfully retrieved pieces of the very engines that had once launched Apollo astronauts to the moon. Using remotely operated vehicles and a series of slings, the crew members recovered enough parts to reconstruct the majority of two F-1 rocket boosters.

Bezos Expeditions announced last year that using state-of-the-art deep sea sonar, that they had discovered the remains off the coast of Cape Canaveral off the coast of Florida. And this past Thursday, and with NASA’s help, Bezos located the fragments at a depth of almost 4.8 kilometers (3 miles) and began hauling them to the surface. Bezos claims they belonged to the historic Apollo 11 spaceflight, but further study and restoration will be needed before their identity can be confirmed.

apollo_rocket1Regardless, this is an exciting find, and the nature of the rocket boosters confirms that they were at least part of the Apollo program. Between 1968 and 1972, ten missions were conducted that flew out of the Kennedy Space Center, each one using the Saturn V rocket, that used five F-1 engines to boost them into orbit. Once the rockets had spent their fuel, they were detached and fell into the sea.

That means that approximately sixty five F-1 engines reside in the ocean off the coast of Florida. No telling which of those these ones could be, but it is hoped that serial numbers will be retrieved from the engines that can connect them to a specific Apollo mission. But regardless, this is an exciting find, and could not have come at a better time since NASA is looking to embark on a renewed era of exploration.

saturn-v-rocket-engines-recovered-ocean-installed_65442_600x450All told, Bezos and his team spent three weeks at sea, working almost 5 kilometers below the surface. During this time, Bezos claims that his team found so much:

We’ve seen an underwater wonderland – an incredible sculpture garden of twisted F-1 engines that tells the story of a fiery and violent end, one that serves testament to the Apollo program. We photographed many beautiful objects in situ and have now recovered many prime pieces. Each piece we bring on deck conjures for me the thousands of engineers who worked together back then to do what for all time had been thought surely impossible.

Naturally, NASA was pretty impressed with the find as well. After the find was announced, NASA Administrator Charlie Bolden made the following statement on behalf of the Agency:

This is a historic find and I congratulate the team for its determination and perseverance in the recovery of these important artifacts of our first efforts to send humans beyond Earth orbit. We look forward to the restoration of these engines by the Bezos team and applaud Jeff’s desire to make these historic artifacts available for public display.

Apollo_11Needless to say, this is an exciting find, regardless of whether or not these rockets were the same ones that sent Neil Armstrong, Buzz Aldrin and Michael Collins to the Moon. Naturally, I hope it is. I can think of no greater tribute to Armstrong’s memory so soon after his passing. I can imagine him looking down on this from the stars, where he now resides, with a big old smile!

And be sure to check out this video taken by the Bezos Expedition of the undersea find:

Source: nationalgeographic.com, universetoday.com