India’s Space Explorers


The gringa has done innumerable posts on NASA, several on the European Space Agency (ESA) and even the space programs of Russia, China and Japan. Were my dear readers aware that India has its own space program? They do. It is called the Indian Space Research Organization (ISRO) and they are now on the brink of exploring the galaxy with their own re-usable shuttle.

To India’s credit, they have accomplished the feat of designing and constructing a reusable launch vehicle for a fraction of what SpaceX spent on their reusable rocket. If their shuttle model is a success, the world may have to turn its eyes to India as the next world leader in space program development and exploration. Not only are they getting things done, but doing so extraordinarily efficiently.

On its virgin flight, the 21 foot long shuttle, weighing one and three-quarter tons, reached Mach 5 as it zipped through space 39 miles above Earth. The craft successfully splashed down right on target at coordinates in the Bay of Bengal. This prototype is much smaller than NASA shuttles but if the design is right and all goes well, India plans to enlarge the shuttle’s length by one hundred feet by the year 2030. By designing a re-usable shuttle, India will realize a 90% savings with every single launch. Cost was the very reason NASA’s shuttle program was discontinued.

Aerospace experts around the world view India’s achievement with great interest.  By drawing upon the successes and failures of other space agencies around the world, India has developed a space program that has avoided costly mistakes. They have also been able to model their inspirations upon the successes that have been accomplished. India is managing a successful and growing space program with a budget that, on average, is about three times smaller than their Western counterparts. One reason is that they have eliminated much of what we Westerners call pesky bureaucracy.

Going red tape free, however, is not without its risks. Only time will tell if lack of regulation results in a more hazardous space program. Re-usable shuttles should translate into multiple launches annually. This will mean more money for the space program by infusions of cash from investors and contractors who want their payloads delivered to the International Space Station and other countries paying cab fare for their astronauts to hop a ride.

At the rate India is clipping along with progress at a significant lower price, they may just boot SpaceX out of the space transport market altogether. Who knows, it may be India that gets to Mars first. And according to the stock market, investors seem to have the same suspicion. The companies involved in supplying ISRO with the materials they need have become quite attractive for foreign and Indian investors.

The gringa has always wanted to visit India. It’s rich history and beautiful culture has always intrigued me. Now, I have hopes that in yet one more country on this grand globe, this astronaut hopeful has just one more option of space programs that, one day, may be interested in sending a gringa into outerspace.

Source & Image Credit: http://www.fool.com

 

 

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Buzzed By Space Junk or ET’s?


In 2017 Earth is expected to be “buzzed” by a mysterious object being tracked by satellites and called “1991 VG” because in 1991 it did its first recorded fly-by of our planet. In December of that year the object, which is about 30 feet (10 meters) across, buzzed past Earth as it continued in its orbit around the Sun (called a heliocentric orbit in fancy Science-speak). Stargazer James Scotti at University of Arizona’s Kitt Peak observatory, using the Spacewatch telescope, spotted VG in November and continued to track it as it passed by.

Observers noted that it shone brightly but this brightness would often go through rapid fluctuations. Scientists argued that this was indicative of it not being an organic object like an asteroid. Could it be a man-made piece of space junk that has been destined to orbiting the Sun until it disintegrates? Well, let’s see just how much space junk is out there in a heliocentric orbit:

American Space Junk

  • Pioneer 4 (1959)
  • Ranger 3 (1961)
  • Mariner 2 (1962)
  • Ranger 5 (1963)
  • Mariner 3 & 4 (1964)
  • Mariner 5 (1967)
  • Pioneer 5, 6, 7, 8, & 9 (1966-1969)
  • S-IVB upper stage panels of Apollo 8 (1968)
  • S-IVB upper stage panels of Apollo 10, 11 & 12, & #10s ascent stage panel LM Snoopy (1969)
  • Mariner 6 & 7 (1969)
  • Mariner 10 & Mercury (1974, 1975)
  • Mars Observer (1992)
  • CONTOUR (2002)
  • Genesis, Spitzer Space Telescope, Kepler Telescope, STEREO-A & STEREO-B

Russian Space Junk

  • Luna 1 (1959)
  • Venera 1 (1961)
  • Mars 1 (1962)
  • Zond 2 (1964)
  • Zond 3 (1965)
  • Venera 2 (1966)
  • Mars 4, 6 & 7 (1974)
  • Venera 11 & 12 cruise stage (1978)
  • Venera 13 & 14 cruise stage (1982)
  • Vega 1 & 2 (1984-1986)
  • Phobos 1 (1988)

European Space Junk

  • Helios 1 (1975)
  • Helios 2 (1976)
  • Giotto (1986)
  • Ulysses (1990)
  • Herschel Space Observatory & Planck Observatory

Japanese Space Junk

  • Sakigake (1985-1999)
  • Suisei (1985-1991)
  • Nozomi (1998-2003)
  • MINERVA mini-lander (2005)
  • DCAM1 & DCAM2 (2010)
  • ARTSAT2:DESPATCH (2014)
  • IKAROS, SHIN-EN, & SHIN-EN2

Chinese Space Junk

  • Chang’e2

India Space Junk

  • Mangalayaan (2013-2014)

Despite the number of man-made objects orbiting the Sun, there are some space enthusiasts who eagerly await 1991 VG’s arrival, wondering if it might be an alien space probe sent to observe our planet. Scientists don’t know exactly what it is… yet. Here are some of the details they are certain of through telescopic and satellite observations:

  • It has a strange rotation.
  • It has existed a very long time in outer space.
  • It rotates rapidly
  • It has reflective fluctuations

Here are the theories bandied about as to what it could be:

  • Alien space probe
  • Small meteorite
  • Apollo 12 rocket

However, after researching each man-made possibility, they have ruled them all out. So, we are left with the possibilities of a small meteorite or an alien-made object. It’s reflective properties has scientists leaning toward a non-organic object which then leaves only an alien-made object left on the list. However, scientists also do not rule out the possibility of a Russian-made object that the science community is simply unaware of. During the years of the Soviet space program, they were very secretive. Information about failed space missions that resulted in space junk left floating about into infinity and beyond was often suppressed. So, there is the possibility that it is a bit of old, secret Soviet space history.

In tracking the trajectory of the object’s orbit, it can be determined that 1991 was not the first fly-by of VG. It also would have passed near the Earth in March of 1975. Repeat visits are another reason scientists rule out an asteroid or meteor because typically if such an object neared Earth like 1991 VG, it would either be trapped by our planet’s gravitational pull and either burn up in the atmosphere or crash (worst case scenario) or have its own trajectory affected and changed by Earth’s gravity. This object’s trajectory remains unaffected by Earth’s pull.

Because its orbit is very similar to Earth’s path around the Sun, some scientists speculate on the alien observation probe theory. Next summer Earthlings will get another up close opportunity to peek at the object as it skims over the planet’s southern hemisphere.

Edinburgh mathematicians have calculated the very real possibility that extra-terrestrials could be successful at launching observation space probes across vast galactic distances to spy on humans. Their work, published in the Journal of Astrobiology, asserts that by taking advantage of gravitational fields surrounding stars they could achieve the necessary speeds for an observation probe to travel to Earth from the far reaches of space of which humans are completely ignorant of and incapable of exploring. In fact, humans are already using this technology in the Voyager probes zipping about the universe.

Regardless of whether it’s a big space rock, hunk of junk or extra-terrestrial peeping Tom tool, the gringa has her calendar marked for the Summer of 2017. I expect interesting things to happen.

 

Sources & Image Credit:

www.motherboard.vice.com

en.wikipedia.org

www.ewao.com

Only 4 More Years…


No, the gringa’s not talking about high hopes for an historical third term of Obama’s presidency to rescue the entire world from the potential disaster of a Trump presidency. The gringa is talking about China and Mars. In just 4 more years China plans to land a rover on Mars.

Now, this may not seem like big news considering that NASA has had a fleet of robotic spacecraft on or around Mars dating back as far as forty years. The significance of China’s contribution is that, well, the more the merrier when it comes to increasing knowledge about Mars and creating the technology necessary for human exploration.

China’s plan is patterned after NASA’s successful Viking I mission that landed the first rover on Mars forty years ago. China intends to orbit the Red Planet, land a rover, perform rover exploration and, once the mission is accomplished, learn from the experience to take another step forward in their own ambitions of a manned mission to Mars.

Like NASA, China’s space program also collaborates with private industry which is not only stimulating their economy, but rapidly advancing their mission objectives. In 2003 they launched their first manned spacecraft, Shenzhou. They also have their very own laboratory and space station orbiting the moon, Tiangong 1. Chinese astronauts aboard Tiangong 1 have performed a space walk and successfully explored the Moon with rover Yutu.

All of this space activity is really preparations for the greater goal, landing a manned mission on Mars. Next month China will launch a mission to deliver the components to recreate Tiangong 1, their experimental space station, into Tiangong 2, a permanent space station. Spacecraft Shenzhou 11 will deliver a 2 person crew who will reside in the space station for several days performing the necessary renovations.

Once China’s space station has successfully been converted to a permanent site, they can plan a manned mission to the Moon and begin rehearsing for a Mars mission. While other countries have slowed their space mission activities, China’s ambitious program has 20 missions planned for 2016. So, keep your eyes turned toward China for interesting developments.

It seems the space race is on to see who gets to Mars first. NASA plans a manned Asteroid Redirect Mission for 2025 and a manned orbit of Mars in the 2030s. The gringa would rather it be a team effort rather than a flag planting competition. However, if a race is what it takes to motivate engineers and scientists to up their game and move full speed ahead in the greatest exploration adventure of the gringa’s lifetime, well, who am I to judge?

Sources & Image Credit: http://www.nasa.gov, http://www.sg.finance.yahoo.com/news/china

 

Say Hello to R2 aka Hardhat Harry


Robonaut. It sounds like the title of a cheap sci-fi flick or perhaps the name of a second-rate children’s superhero action toy. In reality, Robonaut, Robonaut 2 (R2), to be exact, is a vital part of the crew aboard the International Space Station. He is a humanoid robot the gringa likes to call “Hardhat Harry” because of the types of jobs he performs as well as the future plans NASA is cooking up for him and future Hardhat Harry clones.

Presently Hardhat Harry is going through his paces as NASA engineers study how well he performs at this job. NASA hopes that one day Hardhat Harry will be able to join astronauts in their dangerous and risky spacewalks when they perform the necessary maintenance and repairs required on the outside of the space station.

But Hardhat Harry is more than just a handyman, he is also a scientist. In the Destiny laboratory he takes velocity air measurements. However, he is not above giving handrails a good scrubbing. And, just like the gringa, Hardhat Harry likes to flip switches and push buttons.

Guess how he performs his duties? Does the dear reader envision a programmer sitting in front of a computer screen inputting commands? Perhaps an image flashes through your mind of something like a video game with an engineer using a joystick to maneuver Hardhat Harry through his tasks. Nope, it’s even cooler than that. Crew members on board the ISS get to play a very serious scientific game of virtual reality, donning virtual reality headgear and controlling Hardhat Harry as if he were themselves!

Although Hardhat Harry has plenty of charm, don’t fall in love yet. Don’t get any ideas of thinking you will be able to visit one of the many space centers around the world when he returns from his mission and get his autograph. NASA has no plans for Hardhat Harry to ever return home.

Hardhat Harry will continue to be improved and upgraded as researchers learn how to adapt the technology to perform in the vacuum of space and eventually embark on deep space missions. Fleets of R2 Hardhat Harry clones will become the world’s future hi-tech repairmen, traveling far and wide to repair and upgrade communications and weather satellites. There is also great hope that a Hardhat Harry crew will be developed and shipped off to Mars for a surface mission or mine geological resources from the Moon.

Hardhat Harry and his kin will not replace astronauts, so, dear readers, if you are an astronaut hopeful like the gringa there is no need to despair. R2s are simply going to go first and make the way safer for exploration. And, by performing the boring repair jobs, astronauts can devote more time to discovery.

The next phase of progress is to deliver Hardhat Harry some legs. It may seem kind of silly to have Hardhat Harry up there, trying to get the job done without any legs, but remember, he is working in microgravity. He doesn’t necessarily need legs to move about the ISS. And, the legs they will be sending him don’t even have feet. They have grasping contraptions at the end of his “legs” that will secure him to railings while he works.

And, by having removable legs, Hardhat Harry has the option to rove about planetary surfaces centaur style. NASA is developing a four-wheel vehicle that Hardhat Harry’s torso can attach to as he zips about the Moon or Mars or wherever his adventures take him or NASA needs him.

Fans of R2 (aka Hardhat Harry) can keep up with all his exploits in space via Twitter @AstroRobonaut. So, for all the gringa’s dear readers who love robots and have great big dreams and ambitions with robotic technologies, keep your dreams alive and see if NASA can help you make them come true!

Source & Image Credit:  www.nasa.gov

 

3D Expandables Student Challenge for NASA’s BEAM Project


If you are the parent of a creative child or if you are a teacher with a classroom of clever, aspiring young scientists, listen up! NASA is looking for future engineers and participation in any of their challenges is one way for aspiring engineers, scientists and designers to get their attention. Coming up in July is the opening date of a great opportunity for anyone who can “think outside the box”, because that is EXACTLY what NASA is asking everyone who participates to do.

So, dear reader, now that the gringa has sufficiently gotten hold of your interest, I’m sure you want to know what the heck this is all about. Well, the challenge centers around BEAM (Bigelow Expandable Activity Module). This new space program is developing and testing the next phase of the International Space Station. Space agencies will begin integrating habitat technology that is expandable as they test the technology for possible use in deeper space missions. This will enable crews to have an immediate habitat available for use when they arrive somewhere in the galaxy after a long duration flight, somewhere like Mars. After a space flight that has lasted months, crews will not have the strength or time to build a traditional life supporting structure. They need a “pop-up” version.

BEAM arrived on ISS April 10 of this year and was installed successfully on its Tranquility node. In another few weeks it will be inflated and the real tests will begin. Astronauts will determine if the technology meets the demand of the needed readiness level, if it will provide sufficient protection for the crew against radiation in space, evaluate the performance of an inflatable structure and see if it can be safely deployed and utilized by a crew in space.

So what is NASA challenging students from Kindergarten to Seniors to do? NASA needs some 3D printing designs. They need designs of objects that will be useful to astronauts in outer space. We’re not talking about backscratchers and toothbrushes. No, NASA wants kids to think BIG, like expandable BIG, stuff that GROWS! Astronauts need all kinds of expandable stuff like:

  • Hinges
  • Accordion connectors
  • Telescopes

And what does a prize winning student or class have to look forward to?

  • Grand Prize – VIP visit to Bigelow Aerospace, the manufacturers of BEAM
  • Finalist – An inflatable tent by Heimplanet
  • Semifinalist – Gift Code to Shapeways valued at $50

So, get ready to sign up July 16. For more information or to sign-up, log on to www.futureengineers.org/thinkoutsidethebox. And, GOOD LUCK! Drop the gringa a note and let me know all about your experience!

 

Source & Image Credit:  www.nasa.gov

 

 

 

 

 

Cosmic Spas & Outer Space Mineral Mines


Are NASA and other international space agencies interested in creating colonies on the Moon and various other exotic, cosmic locales? Most certainly. However, not for the nefarious purposes of whisking away the highly educated and financial elite in order to preserve the human race from extinction. What they really want to do is exploit the natural resources of these places.

Humans are a hungry species and their appetites include all sorts of stuff from fruits and vegetables to minerals and ores. Many minerals and ores are not only rare, with few deposits in sundry places around the world, but are also finite in their supply. Once diminished, humans will have to find another source. That’s where asteroids and the Moon come into play.

Asteroids are like one of those grab bags you get as a party favor. You never know what’s inside. Although primarily chunks of ice, tar and dust, they also contain scare minerals and metals. For astronaut mining crews, outer space is full of opportunity, kind of like a mechanic entering an auto junkyard the size of Earth. Best estimates to date believe there are hundreds of thousands of asteroids, some nearly five billion years old, of assorted sizes and shapes from the size of a coffee table to hundreds of miles in diameter (Earth, in comparison, is about 8,000 miles in diameter). With such abundance, if humans can overcome the technological and economical obstacles, we may have a seemingly limitless supply of raw materials available.

The gringa wonders what will happen when that occurs? Will space become filled with flag waving asteroids? Considering even a small asteroid could be valued at many millions of dollars in potential minerals, will countries be zipping about space, hither and yon, planting flags on as many asteroids as possible in a territory game of, “Mine! I found it first!”? The gringa is hoping it will be much more civilized than that.

For mining purposes, asteroid’s are classified according to three groups based on light reflection (spectral) analysis. Since mankind cannot yet land on an asteroid and physically take a geological sample or do so with a robotic satellite, scientists evaluate how light reflects off the surface of an asteroid to determine its primary mineral component.

C-type asteroids are dark and carbon based. They are comprised of clay based minerals that have lots of water trapped within the clay. The gringa thinks these could, perhaps become cosmic spas if we could find a way to generate some kind of thermal reaction within the asteroid. Think of it, “Come visit asteroid XP-247 for its relaxing steam baths and mineralized clay body and facial wraps. Just don’t forget your oxygen mask.”

But what about the carbon and other stuff in the clay? Is that any good for anything? Yep. It makes a garden grow lush, thick and plentiful. C-type asteroids rich in carbon, phosphorous and other elements in the fertilizer spectrum could be very valuable as future garden spots. The gringa can now see the cosmic version of the “Hanging Gardens of Babylon” where visitors can also get a soak in the hot springs and a beautifying and detoxifying mineral rich clay body wrap.

I mean, really, we have plenty of clay and carbon and water here on Earth but surely there will be an eager entrepreneur who will see the same potential. Or do we really have plenty of clay, minerals and water on Earth?

The water reserves could very well come in handy. The gringa can see it now – a gravity beam lassos a water rich C-type asteroid and hauls it near Earth’s atmosphere. It then uses transporter technology that has finally been perfected to zap it through the atmosphere, avoiding a friction filled entry that would evaporate up all that precious water. Then, as it approaches fatefully close to a desert region, just before impact a precision laser beam goes, “ZIP, ZAP, ZOOM!” and a lovely shower of water rains down upon the desert with all the pulverized clay and carbon providing rich fertilizer. The desert is soon a fertile oasis. Hey, it could happen. Stranger things already have.

But NASA thinks the real value of water rich asteroids is in using the resource in outer space. By finding a way to mine the water in flight, crews could save billions of dollars by not having to pack this life-support necessity. Interestingly enough, the very thing that humans need to survive, consisting of two molecules of hydrogen and one of oxygen, are the very elements of rocket fuel. (Wow, humans are 60% rocket fuel, or, water, depending on your perspective!). So, astronauts dock their spaceship at a galactic version of Exxon to fill up the tank and top off the water reserves. And while the service station is checking the engine’s oil level and cabin’s air pressure, the crew is freshening up at the nearby spa. Interesting.

So, C-type asteroids can either be Desert-to-Eden conversion sources, hot spring spas, water wells, or rocket fuel depots. Or all three at the same time.Take your pick.

S-type asteroids shine a little brighter than dark, carbon based C-types. That’s because they are rich in reflective metals like cobalt, iron and nickel. If a mining crew is really lucky they could find one with deposits of rhodium, platinum or gold. Scientists estimate that an asteroid about the size of an average bedroom could be packed with well over one million pounds of metals, a tiny fraction being the exceedingly valuable rare ones. Even if mining crews could extract just one hundred pounds of platinum, at about $1000 an ounce, a $100,000 load of platinum would just be the gravy on top of the wealth accumulated from the remaining predominant minerals.

But it may be the M-class asteroids that wars end up being fought over. The wars for oil that we have raging now could very well become wars for M-class asteroids in the future. These asteroids are expected to contain at least ten times the mineral content of S-types.

To make space mining a reality, the mission has to be profitable. With current missions costing in the hundreds of millions, some even billions, an asteroid would have to be massively rich in raw materials. The other option is to develop technologies that are more economical.

Before any of that even matters, current asteroid knowledge needs to be vastly broadened and fine-tuned. We need cosmic cartographers to accurately map the hundreds of thousands of asteroids in outer space. The world needs space geologists that have the technology and knowledge to analyze what minerals each asteroid actually contains. Young students now, who have an interest in a cosmic career, could really have a geology or cartography degree pay off by landing them their dream job.

NASA’s first effort to test their scientific mettle for determining present mineral resources within an asteroid lie with their OSIRIS-REx mission. The goal of “Origins, Spectral Interpretation, Resource Identification, Security and Regolith Explorer” is to return with a geological sample from asteroid Bennu. It is set to launch in September and arrive at the asteroid almost two years later. If all goes according to plan, Earthlings can expect an authentic piece of Bennu to arrive on planet Earth around 2020. (Of course, the gringa is reminded of her favorite piece of motherly advice given regularly to her children in efforts to cultivate a more relaxed approach to life, “The plan is that nothing goes according to plan.”)

In addition to geological studies of Bennu’s raw materials, asteroid re-direction technologies will also be studied. The spacecraft is scheduled to perform an interesting experiment. It is going to give Bennu a gentle, solar nudge. Scientists want to know if sunlight can be used to affect the path of travel of asteroids. I guess the reasoning is that asteroids are too valuable to simply blast into oblivion if Earth happens to be in the way. They would rather nudge them aside then attempt to exploit the wealth they contain.

The most important goals of the mission, however, are to further the development of space mining technologies. They plan to scrape together a two ounce and 4.4 pound geological sample. The spacecraft will then use its state-of-the-art instruments to map the surface of Bennu and analyze its composition. These are the on-board technologies and their purposes:

  • OVIRS (OSIRIS-REx Visible and Infrared Spectrometer) – analyzes visible and near-infrared light to detect minerals, compounds and chemicals within the asteroid.
  • OTES (OSIRIS-REx Thermal Emission Spectrometer) – analyzes infrared light to detect surface minerals of Bennu, determine surface temperature and map the location of water-rich clay mineral deposits.
  • REx (Regolith X-ray Imaging Spectrometer) – analyzes X-ray aura of Bennu’s surface in sunlight to calculate amounts and locations of elements like: iron, magnesium, silicon and sulfur.

To find out if sunlight can be used as an asteroid diversion technique OVIRS and OTES will combine their abilities to study what is known as the “Yarkovsky effect”. When an asteroid absorbs sunlight much of the heat radiates outward and provides a propelling effect. Observations will be made to see if a “man-made” solar heat saturation could result in changing an asteroid’s trajectory.

Most of what will be recorded by the different spectrometers will only reflect what is on Bennu’s surface and within a shallow depth (about half a millimeter). They are not capable of reaching deep within the asteroid’s core. To get a deeper look the spacecraft has a tool that blows nitrogen gas onto the surface that will force minerals up from a depth of about two inches. Even so, it’s pretty obvious that much about Bennu will remain unknown even if the mission is successful in achieving all of its goals.

But, a successful mission will at least tell the world one thing: can mining asteroid’s work? The gringa believes if great wealth is at stake there will be movers and shakers in this world who will make it work one way or another while pocketing a healthy profit in the process.

Source & Image Credit:  www.nasa.gov

 

 

 

 

 

Moonports, Caves & Bubble Pads


With all the worry of climate change transforming the Earth into an uninhabitable wasteland, kazillions of dollars are being spent to develop technology to colonize the Moon and various other stellar locales. But, if climate change results in a rise in sea levels that wipes out much of our habitable geography, what about living under the water? Wouldn’t it be more practical and economical to develop under the sea rather than colonize outer space?

These are just the sort of questions Samsung Corporation hoped to answer in their newly released “SmartThings Future Living Report” featured on their Samsung Newsroom website. The report is really a cleverly crafted marketing scheme to promote their latest gadgets and devices available in 2016. They want to reassure everyone that their products are keeping up with the times and will not be obsolete when the day comes that we are all surviving masterfully under the waves.

The report was researched and authored by a team of qualified “futurists”:

  • Maggie Aderin-Pocock – Space Scientist who believes in a future of sub-aquatic cities
  • James Monighan, MD – Commissioned the report and believes that smart technology will make everyone’s life better
  • Arthur Mamou-Mani – Award winning architect specializing on futuristic design, lecturer at University of Westminster
  • Toby Burgess – Award winning architect specializing in futuristic design, lecturer at University of Westminster
  • Linda Aitken – Urban planner specializing in innovative design
  • Els Leclerq – Urban planner specializing in innovative design

The future this team of brilliant minds envisions is one with skyscrapers in the depths of the sea, transportation via sophisticated smart-drones, all encased in a self-sustaining bubble. What kind of technology will make all of this possible?

Skyscrapers – Megalithic structures that will dwarf the average skyscraper of today will be constructed of nano-tubes made of carbon and nano-threads made of diamonds. Yum, diamonds.

Earth-scrapers – In order to escape the ravages of life above ground, humans will also burrow into the Earth, surrounding themselves with insulating soil. Delving twenty-five levels deep, the mole people of the future will live cool as cucumbers.

Underwater Urban – Self-contained biospheres will house urban areas under water. The water will provide the oxygen and hydrogen fuel to run the cities.

Drone Taxis – No more wheels. Everyone will be trading in their cars for personal drone transport.

Bye-Bye Ikea – No more shopping at a local furniture retailer. Instead, folks will equip themselves with a quality 3D printer and create their own furniture themselves out of recyclable and renewable materials.

Smart Décor – Paint and wallpaper will become a thing of the past. Heck, you won’t even need a hammer and packet of nails for hanging pictures. Walls will actually be LED screens and you can download and install and photoshop to your heart’s content until you are surrounded with the décor of your dreams.

Holograms – If you think Skype is cool, wait until you can talk to a loved one three dimensionally via hologram technology.

Medi –Pod – Who needs to bemoan the good ol’ days when doctors made house calls when your home is installed with its very own medi-pod. Step in, turn on and find out what that nasty cough is all about. A handy dispenser will supply you with the appropriate medication and, if things look really bad, a surgeon can even operate remotely.

Samsung believes that the space race to colonize the Moon and maybe even Mars will continue but those colonies will probably be reserved for elite scientific explorers, courageous entrepreneurs and wealthy adventurers. Regular folk will stay here on Earth, surviving underground or underwater. As for me, I’m thinking the underground route looks interesting but I’m not ruling out a sub-aquatic chalet.

However, despite all of the social evolution and revolutions that have taken place and are still on-going, the gringa just sees more of the same ol’, same ol’. I see the wealthy living in their master-planned communities on Mars and the Moon. The upper and middle classes submerged in style, living as one with the dolphins. Working class folks like myself and the caveman will be in the deep-Earth barrio. And, the truly impoverished will be eking out a minimal existence in the ghetto wasteland of above-ground planet Earth.

However, despite the gringa’s cynicism, she has great faith and hope for humanity. Throughout history humans have always managed to innovate and practice incredible ingenuity to survive. Despite all the fears that trouble folk about how we will survive the catastrophe of climate change, the gringa believes folks aren’t really worried about whether or not they will survive. I think most folks are worried about “how” they will survive. As in:

  • “How will I survive with air conditioning?”
  • “How will I survive without a grocery store?”
  • “How will I survive without my car?”
  • “How will I survive without a light switch that works?”
  • “How will I survive without soft toilet paper?”
  • “How will I survive without a flushing toilet?”
  • And the big one… “How will I survive without the Internet, my laptop, smartphone and social media?”

But the gringa promises everyone that we will, indeed, survive. And probably become a better people for it.

 

Source: http://www.samsung.com

Image Credit: http://www.coilycafe.blogspot.com