Wednesday, November 30, 2016

The Poorest Countries in the World

The Poorest Countries in the World





While many people in the U.S. worry about waiting in line too long for coffee or whether the car they want comes in the right color, across the globe there are many people simply trying to make ends meet every day. These people frequently live in the poorest countries in the world — places with struggling economies, a lack of natural resources or a combination of that and more.

To determine the world's most cash poor countries, FindTheData, a world data site by Graphiq, ranked countries based on their on their gross domestic product (GDP) per capita, as reported by the World Bank in 2015. They only included members of the United Nations.

Note: Although the CIA World FactBook lists North Korea's GDP per capita as $1,800, FindTheData excluded North Korea from the list due to its lack of reliable reporting.


List & Statistical view of  The Poorest Countries in the World

Maldives


#115 - Maldives
GDP per capita: $7,681.08
Country GDP: $3,142,812,004
Population: 408,000
Government type: Republic

                                                     to be continue...


Thursday, November 17, 2016

10 Awesome New Inventions You'll Never Hear About

Start the Countdown

Is this gold vending machine, the first to be installed in the U.S., going to become a commonplace invention or one bound for the footnotes of history?



Some inventions are so ubiquitous that it's difficult to imagine they started as an idea scribbled on paper and then a patent application submitted to, say, the U.S. Patent and Trademark Office (USPTO). Aluminum foil, adhesive bandages, the ballpoint pen, the computer mouse, the microwave oven -- these are just a few examples of great ideas that became indispensable products we now take for granted.

Nevertheless, of the 520,277 applications that inventors filed with USPTO in 2010, chances are that not even half will be granted patents, and far fewer will become commercial successes [source: USPTO]. For every new gadget that becomes a household name and changes our lives, there are thousands of others that languish in patent office files, unappreciated except perhaps as curiosities. Some of them are ingenious, but plagued with small but fatal flaws. Others are too outlandish to ever gain widespread acceptance. A few are simply ahead of their time.

In that spirit, here are 10 of the most outré technological advances from recent years -- inventions that push the boundaries of innovation, yet seem unlikely to gain widespread acceptance. Enjoy them with a caveat: There were people who scoffed at the notion that the motorized carriage would ever replace the convenience of having a horse, and others who figured that nobody would ever need or want to carry a telephone around in their pocket. Enjoy.


10. Military Mind Control


No mind control for these U.S. soldiers on patrol -- yet.

The helmet used by the U.S. military has changed dramatically over the years. In World War I, the M1917/M1917A1 helmets, also known as "Doughboy" or "dishpan" helmets, protected the heads of American infantrymen. They were replaced in 1941 by the M-1 "steel pot," the standard-issue helmet in World War II, the Korean conflict and throughout the Vietnam War. By the 1980s, U.S. military helmets had evolved into a one-piece structure composed of multiple layers of Kevlar 29 ballistic fiber.

The helmet of the near future, however, may contain something more than extra protection from flying shrapnel. An Arizona State University researcher, working under a grant from the U.S. Defense Advanced Research Projects Agency (DARPA), is trying to develop a military helmet equipped with technology to regulate soldiers' brains. The technology is transcranial pulsed ultrasound, which delivers high-frequency sound waves to specific regions of the brain. Under the influence of these sound waves, neurons send impulses to their targets, exerting control over them. On the battlefield, this has enormous implications. Using a controller, a soldier could release ultrasound pulses to stimulate different areas of the brain. For example, he or she might want to be more alert after being awake for many hours or relax when it's time to catch some shuteye. The soldier might even be able to relieve stress or become oblivious to pain, eliminating the need for morphine and other narcotics.

Of course, some people think this type of neurotechnology is pure science fiction. Others worry that Uncle Sam is trying to take over the minds of its soldiers. After all, it's one thing to have a drill sergeant yelling in your ear. It's another thing completely to have one inside your head [source: Dillow].



09. Pencil Pusher


A sketch of what the pencil-making device might look like


U.S. businesses use about 21 million tons (19 million metric tons) of paper every year -- 175 pounds of paper for each American, according to the Clean Air Council. This has led to office recycling programs, "please think before you print" e-mail signatures and printers that offer double-sided printing. Now a trio of Chinese inventors hopes to add another device to the cubicle environment: the P&P Office Waste Paper Processor, which turns paper destined for recycling into pencils. The machine, looking a bit like a three-hole punch crossed with an electric pencil sharpener, was a finalist in the 2010 Lite-On Awards, an international competition that seeks to stimulate and nurture innovation.

Here's how the pencil-making gadget works: You insert wastepaper into a feed slot. The machine draws the paper in, rolls and compresses it, and then inserts a piece of lead from a storage chamber located in the top of the device. A small amount of glue is added before -- voilĂ  -- a pencil slides out from a hole on the side. It's not clear how many pieces of paper form a single pencil, but you figure the average office worker could generate a decent supply of pencils in a month.

And that seems to be the biggest drawback to the pencil-producing gadget. How many No. 2 pencils can an office really use, given that most workers take notes on their tablet PCs or laptops? And how much glue and lead core do you need to buy to keep up with the overflowing paper recycle bin? Too much, we would suspect, which is why you may never see this gadget in your office supplies catalog [source: Bonderud].




08. Perpetual Printing


The PrePeat, minus its plastic paper



Printing has come a long way since the computer landed on the desktop. First, there were daisy-wheel printers, then dot-matrix printers, then inkjet and laser printers. The problem with all of these output devices, of course, is that they require paper -- lots of it -- and expensive consumables, like toner. Why can't someone invent an inkless, tonerless printer that allows the operator to reuse paper?

As it turns out, this isn't a new idea. Xerox has been working with so-called electronic paper since the 1970s. Its most promising solution is a type of paper called "Gyricon." A Gyricon sheet is a thin layer of transparent plastic containing millions of small oil-filled cavities. A two-colored bead is free to rotate inside each cavity. When a printer applies a voltage to the surface of the sheet, the beads rotate to present one colored side to the viewer, offering the ability to create text or pictures. The images will remain on the paper until it's fed through the printer once again.

A Japanese company, Sanwa Newtec, is offering its version of inkless, tonerless and rewritable printing technology. Its product is called the PrePeat rewritable printer, which, like the Xerox solution, requires plastic paper. But PrePeat uses a different technique to produce an image. Each sheet of paper comes embedded with leuco dyes, which change color with temperature -- colored when cool and clear when hot. The PrePeat printer, then, heats and cools the paper to first erase an image and then create a new image in its place. According to the company, a single sheet of paper can be reused 1,000 times before it needs to be replaced.

What's the catch? A single PrePeat printer costs almost $6,000, while a pack of 1,000 sheets of paper costs more than $3,300. If you're running a printing-intensive business, you might be able to recoup your investment over time. But the average PC user likely won't be willing to shell out that kind of money to replace a standard printer [source: Miller].




07. Insect Assailants

A NAV will be a lot smaller than the EMT Aladin airborne reconnaissance drone this German soldier is using for close area imaging during patrol on Oct. 17, 2010, in Afghanistan.


Many people don't know it, but USPTO can apply a secrecy order to a patent if patent office staff and their military advisers think the idea could be used to threaten national security. Once the USPTO decides that a technology is no longer a threat, it can publish the patent and pave the way for commercialization. Some patents may remain cloaked under a secrecy order for one or two years; others languish for decades. More than 5,000 patents -- inventions we may never know or see -- currently have secrecy orders attached to them [source: Marks].

That's not the end of hush-hush inventions. Each year, the Pentagon sets aside billions of dollars to develop top-secret military weapons. This so-called "black budget" has grown tremendously since the Sept. 11 attacks, surpassing even the funds spent at the height of the Cold War. Some of that money has gone toward the development of nano air vehicles (NAVs), remote-controlled micro-drones that could easily infiltrate enemy territory. We all know how the U.S. military has used larger drones to conduct reconnaissance, transport supplies and even target individuals. Unfortunately, the larger attack drones, such as the MQ-1 Predator, can result in unwanted civilian casualties.

Lockheed Martin's Samarai micro-drone could solve that problem. Weighing a mere 5.29 ounces (150 grams) and boasting a 12-inch (30-centimeter) wingspan, the Samarai looks like a maple-seed whirligig, except this one comes with a miniature jet engine to provide thrust and a tiny flap on the trailing edge of the wing to control direction. In the near future, this nature-inspired micro-drone will snap photos using a camera mounted on the gadget's central hub. But the longer-term goals are to turn the Samarai or other similar micro-drones into armed attack vehicles capable of killing a single individual with little or no collateral damage [source: Weinberger].




06. Seed Racer

The BIOME, in all its far-out organic glory. Future, please hurry!


Mercedes-Benz has been an innovator for decades. You can thank the German auto manufacturer for diesel and supercharged engines on passenger cars, antilock brakes, electronic stability systems and more. But nothing could be more innovative than the BIOME concept car, unveiled at the Los Angeles Auto Show in November 2010. Here's how the official press release described the vehicle: "The Mercedes-Benz BIOME grows in a completely organic environment from seeds sown in a nursery. Out on the road the car emits pure oxygen, and at the end of its lifespan it can be simply composted or used as building material."

Engineers from the Mercedes-Benz Advanced Design Studios in Carlsbad, Calif., created the car as part of the Los Angeles Design Challenge, which called for a safe and comfortable compact car of the future that could accommodate four passengers, demonstrate good handling and weigh only 1,000 pounds (454 kilograms). The BIOME represents the Mercedes-Benz vision. It is made from an ultralight material called BioFibre so that the finished vehicle, though wider than a typical car, only weighs 876 pounds (397 kilograms). If you think that sounds too good to be true, then get this: The BIOME isn't assembled. It grows from two seeds -- one that forms the interior and one that forms the exterior. The wheels germinate from four additional seeds placed in the nursery.

Of course, you won't find the BIOME at your local Mercedes-Benz dealer. That's because the far-out design is a vision of the future -- a concept car that's decades ahead of its time. As such, it couldn't exist today. But it might be as common as a Corolla after 20 or 30 years of innovative thinking and inspired engineering [source: Leavitt].




05. Body Armor With Built-in Stun Gun, Flashlight and Cameraphone Charger


The Armstar Bodyguard 9XI-HD01 looks a bit like that scary black body armor that Christian Bale wears in the recent Batman movies. And it is kind of like that, actually.

The Bodyguard, which was patented by a California inventor in 2007 under the title of "wearable shield and self-defense device," is designed to be a shield, a non-lethal weapon and a communications device all in one [source: Justia.com]. The flexible arm, which is armored with Kevlar and hard plastic, contains a rechargeable lithium battery pack that powers an "electronic deterrent" device built into the arm's artificial skin. All the user has to do is pull a pin, and an assailant who grabs his or her arm is going to get zapped with electricity. The Bodyguard is also equipped with a bright LED flashlight, an HD camera capable of transmitting pictures, and a charging slot into which an iPhone apparently fits nicely.

We could see this gadget becoming an indispensible tool for law enforcement officers and bodyguards of the future, but given that you have to inquire about it to get a price quote, we're guessing that it'll be too costly to make much of a dent into the everyday suburban adventurer market [sources: Armstar.net, Inventionreaction.com].



04. Bat Suit


Wingsuit flyers, like the one pictured, need to jump out of an airplane or off a cliff to fly.


Have you ever wanted to leave the ground and soar like a bird -- or perhaps a bat? In January 2012, a Connecticut-based inventor was granted a patent for what the application describes as "a completely dynamic human powered flying suit" that is modeled after the bat's style of aviation. The inventor explains in the patent application that bats are fellow mammals and the flying creatures "most closely related to human beings."

The device consists of a pair of strap-on batlike wings with rigid and non-rigid portions that can be manipulated by the wearer once aloft. Initially getting off the ground is a bit trickier: Unlike bats, who simply do what comes naturally, the wearer of the flying suit would have to be towed, or ride on a bicycle, skis or rollerblades down an incline and then assume a leaning-forward flying posture and leap into the air at the appropriate moment [source: USPTO]. The question is: Would this really work?



03. Portable Cat-toy Park

Think about it.


Comedian Steve Martin used to have a routine in which his pet cat figures out how to imitate his voice and orders $3,000 worth of cat toys from a mail-order company. The bit certainly resonated with cat owners, who know how easily felines can get into mischief when they're trying to alleviate boredom. In 2009, a New York-based inventor was granted a patent for one possible solution: a fold-up "cat toy park" equipped with a scratching post, a tunnel for crawling through, a hanging chew toy, and most ingeniously, a tube equipped with a fan that blows colored balls around a mesh tube, a game that's "devised to occupy one or more cats" [source: USPTO].

While cat fanciers may applaud the ingenuity of the concept, cats are notoriously fussy and capricious, and there's no guarantee they would choose to play with such a toy rather than, say, claw your antique furniture. Also, the value of having a portable cat entertainment center is questionable, since we've never seen a cat who was a willing traveler.




02. License Plate Flipper

The Aston Martin DB5 driven by James Bond in the film "Goldfinger"


Remember James Bond's tricked-out Aston Martin in the 1964 movie "Goldfinger" -- the one equipped with hidden machine guns, pop-out razor rims to slice pursuer's tires and an ejector seat? Wouldn't you love to outfit your Toyota Yaris with some of that stuff?

The high-powered weaponry, alas, probably is a bit impractical, not to mention dangerous. But there is a company that offers an electronic license-plate flipper of the sort that Bond used to conceal his identity from prying eyes. The $79.00 Vehicle Plate Flipper doesn't allow you to impersonate a Swiss or French driver, but it does flip down at a 90 degree angle at the press of a button to display a message on an underlying plate for the driver behind you. There's also a special $74.99 version for motorcycles.

We're not sure that this gadget will ever become widely popular, though, in part because some of the device's conceivable uses -- hiding your identity from red light cameras and police, or provoking tailgaters with taunting messages -- could get drivers in a lot of trouble. Indeed, the company that sells the device attaches a disclaimer to its Web site, warning that the gadgets are "STRICTLY intended for off-road use only" and informing potential customers that they take responsibility "for all liabilities associated with the use or misuse of our product" [source: Plateflipper.com].




01. Robot That Devours Insects and Rodents


An old-fashioned mouse trap


At this point, robotic vacuum sweepers, singing androids and mechanical dogs are old hat. But British inventors Jimmy Loizeau and James Auger have made a quantum leap with the Carnivorous Domestic Entertainment Robot, an automaton that would stalk and devour mice and insects, and then eat them and digest their bodies to produce its own power.

They've come up with five different concepts, including the mousetrap coffee table robot, which is designed to lure unwary vermin onto its surface, which contains a trap door triggered by motion sensors. Rodent victims trapped by the device would be chemically dismantled and fed to a microbial fuel cell. A light on the side of the device would inform the owner of how much energy is being produced by the auto-extermination. Other configurations include the Lampshade Robot, which would lure flies and moths to their doom, a Cobweb Robot that would trick spiders into weaving webs and then extract and feed them into its fuel cell, and the Flypaper Robotic Clock [source: Scott].

Right now these robots are still just concepts, which you might say is good thing: Realistically, who wants to watch their coffee table devour a mouse?




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10 Things You Didn't Know About Einstein

Albert Einstein

You know you're permanently established in the pop culture pantheon when people pose in front of your Lego likeness. 


Everyone knows Albert Einstein as a wild-haired, violin-playing genius who revolutionized physics, and many have heard how he arrived at his groundbreaking theories via one ingenious thought experiment, or gedankenexperiment, after another. But did you know that he was also an eccentric who gleefully eschewed socks, dodged German military service and spurned social conventions? Or that he was an enthusiastic but third-rate sailor?

Ever since solar eclipse observations in 1919 made him front-page news, we haven't been able to get enough of this guy. And why not? Einstein's influence extended beyond the scientific fields he revolutionized. His theories of relativity, which departed from the classical Newtonian view of the cosmos, came to symbolize a broader societal shift away from Enlightenment-influenced concepts of art, literature, morality and politics. More than that, thanks to his strong political and social views, often distilled into playful, philosophical and pithy quotes, he's been a mainstay of dorm-room posters and pop culture for decades.

But with the revelations that accompanied the release of his private papers 30 years after his death, do we finally have too much of Einstein? Do they remind us to never meet our heroes, or merely that all geniuses are, finally, human? As we explore the many facets of this extraordinary man, we might find that the answer changes relative to our reference frame.



10. He Took Up Speaking Late as a Child


Einstein at age 3 


Einstein did not speak until comparatively late in childhood, and he remained a reluctant talker until the age of 7 [source: Wolff and Goodman]. This fact, combined with his single-minded devotion to physics, his imposition of routines on his wife, his musical talent and other factors have led some to argue that Einstein had Asperger's syndrome, an autism spectrum disorder that affects language and behavioral development in children.

Other historical talents, including physicists Isaac Newton and Marie Curie and artists like Wassily Kandinsky and J.M.W. Turner, have received similar postmortem armchair diagnoses [source: James]. Departing from this view, Stanford economist and author Thomas Sowell coined the term "Einstein Syndrome" to describe non-autistic gifted people with delayed speech. How his ideas are viewed by child development experts, or how they differ from the more commonly known phenomenon of asynchronous development, in which gifted children develop faster than average in some areas and more slowly in others, remains unclear.

In the end, Einstein, a lifelong visual thinker, might simply have had a rich inner life and no need for speech because, as one famous anecdote claims he said, "up to now everything was in order."



09. He Did Not Actually Do Poorly in School

Grades get kind of confusing when school officials turn F's into A's and vice versa. A switcheroo like that may have been responsible for the rumor that Einstein flunked math. 


We love to swap ironic facts about famous people, especially in our click-bait-driven Internet culture. So it's no surprise that the notions that Einstein struggled with math and that he failed his college entrance exams have such staying power. In truth, he excelled in physics and math from a young age and studied calculus while only 12 years old. He also knew his way around Greek conjugation and Latin declension. So how did the idea that he failed math gain traction? Possibly because, during one year of Einstein's education, school officials reversed the grading system, turning the numerical equivalent of A's into F's (and confusing unwary future biographers).

Einstein did fail his first round of entrance exams -- due to extenuating circumstances. When the young man applied to the Swiss Federal Institute of Technology, he was a 15-year-old dropout who lacked the equivalent of a high school diploma. Moreover, the rigid educational system that he grew up in did not provide him the background in French, chemistry and biology that he needed to pass the institute's exams. He scored so highly on his mathematics and physics tests, however, that the university accepted him anyway, on the condition that he complete his secondary education soon after.



08. He Had an Illegitimate Daughter With a Mysterious Fate

He was 17 and she was almost 21, but despite the difference in age and world experience, Albert Einstein and Mileva Marić fell very much in love. The two are pictured here on Jan. 1, 1905. 


While attending university in Zurich, Einstein fell in love with an older physics student, Mileva Marić, who would eventually become his first wife. By the standards of late 19th-century Europe, theirs was a modern love affair. They soon grew quite close and gave one another nicknames: He called her "Dollie," and she nicknamed him "Johnnie."

Marić was a remarkable woman, having overcome enormous social resistance to earn a place as the fifth woman accepted to the prestigious university [sources: PBS]. But for years after graduation, Einstein remained too poor to marry her. Moreover, his parents rejected Marić as a too-old, bookish Eastern Orthodox Serb, and his father did not approve the marriage until just before his death in 1902 [sources: Golden; Kaku; PBS].

Earlier that year, in January, the couple had a daughter named Lieserl (diminutive for Elisabeth). Marić returned to her parent's home near Novi Sad, a Serb cultural center then located in the Kingdom of Hungary but today part of Serbia's rural Vojvodina region. There she gave birth to the child, after which the couple never spoke of their daughter to others, even friends. Lieserl's fate remains a mystery to this day. The two prevalent theories hold that she died of scarlet fever or was given up for adoption [sources: Golden; Kaku; PBS].



07. He Was a Cad With a Tumultuous Family Life

And here's Einstein with his second wife (and cousin) Elsa on April 1, 1921. The two wed on June 2, 1919. 


Whatever closeness Einstein and Marić shared did not survive long into their marriage, as their correspondence makes clear. Indeed, his own letters paint him as an unkind philanderer who neglected and mistreated her while openly enjoying several flirtations and affairs [sources: Golden]. One mistress, his cousin Elsa, would eventually become his second wife, although he also considered marrying her daughter, his future stepdaughter. This must have made family reunions both uncomfortable and confusing, especially since Elsa was Einstein's first cousin on his mother's side and his second cousin on his father's side [sources: Golden; Kaku]. He cheated on Elsa as well, but she allowed it as long as he kept his affairs quiet.

Meanwhile, because he could not afford to support himself and his first wife in the case of a divorce, Einstein struck a deal with Marić: She would grant him a divorce, and he would give her and their two sons the prize money from his presumably imminent Nobel. Finally, after five years living apart, Marić divorced Albert in 1919. Thereafter, he grew estranged from his sons, one of whom was schizophrenic, leaving Marić to care for them and her own crumbling family [sources: Golden; Kaku; PBS].



06. He Had One Heck of a Year

Yep, 1905 was the year that E = mc2 burst onto the scene, too. 


In 1905, Einstein published four papers that rocked contemporary views of space, time, mass and energy and helped set the stage for modern physics, all while writing a doctoral dissertation and working as a third-class examiner in the Swiss patent office.

After graduation, Einstein had applied for numerous academic posts, but school after school had rebuffed him. Their rejections stemmed in part from a letter of recommendation that Einstein had foolishly requested from Heinrich Weber, a professor whose classes he had regularly ditched [sources: Kaku]. As decisions go, it was an object lesson in the difference between intelligence and wisdom. But the clerkship left Einstein enough daydreaming time to conceive his four landmark Annals of Physics journal papers, all published in a single annus mirabilis:

01. "On a Heuristic Viewpoint Concerning the Production and Transformation of Light" explained the photoelectric effect using quantum theory (and would eventually earn him the Nobel Prize, see below).

02. "On the Movement of Small Particles Suspended in Stationary Liquids Required by the Molecular-Kinetic Theory of Heat" experimentally proved the existence of atoms.

03. "On the Electrodynamics of Moving Bodies" established the mathematical theory of special relativity.

04. "Does the Inertia of a Body Depend Upon Its Energy Content?" explained how relativity theory led to a mass-energy equivalence of E = mc2.



05. He Mediated a Hostage Negotiation

August 1914: Bavarian soldiers head out to the war front. Unlike some of his academic peers, Einstein did not support the war and was a lifelong pacifist. 

Einstein was willing to put his pacifism and commitment to peace into action, even at the risk of his own hide. In 1914, he and three colleagues in Germany singled themselves out by daring to sign a statement protesting the then-empire's militarism and involvement in World War I [source: Kaku]. The four issued the declaration in reply to the "Manifesto to the Civilized World," a government-sponsored document that defended Germany's invasion of neutral Belgium and which nearly 100 eminent German intellectuals signed. While many of his colleagues offered the fruits of their genius to the war effort, Einstein refused.

The war left Germany devastated, deeply in debt and facing social upheaval. During the turmoil that followed, radical students at the University of Berlin took the rector and several professors hostage, and no one wanted to take their chances finding out how the police would resolve the standoff [sources: Bolles; Kaku]. Both students and professors respected Einstein, so he and Max Born, a German-born pioneer of quantum mechanics, found themselves in a position to defuse the situation, which they did [source: Kaku]. In later years, Einstein would recall with amused wonder how naĂŻve they had been for never considering that the students might have turned on them [source: Bolles].



04. He Didn't Win the Nobel Prize for Relativity

Einstein and three of his fellow Nobel Prize cronies including (left to right) Sinclair Lewis, Frank Kellogg, Einstein and Irving Langmuir. The four, along with others, had gathered for a formal celebration on the 100th anniversary of Alfred Nobel's birth in 1933. 


As with most scientific revolutions, Einstein's breakthrough insights on special relativity in 1905 did not arise out of a vacuum. His genius lay in how he transformed previous work by scientists like Henri Poincaré and Hendrik Lorentz into a new, unified theory, one that removed the friction between Newtonian physics and James Clerk Maxwell's theory of light.

Published in 1916, Einstein's theory of general relativity completed special relativity by bringing gravity and acceleration into the picture through the concept of warped space-time. Unfortunately, it took years to prove one of its key predictions, the lensing effect of gravity. When astronomers finally confirmed the bending of starlight during observations of a 1919 solar eclipse, it launched Einstein into overnight celebrity, but three more years would pass before the Nobel committee retroactively awarded him the 1921 Nobel Prize in physics in 1922.

Einstein received the prize for "the discovery of the law of the photoelectric effect." The photoelectric effect refers to the release of electrically charged particles (ions or electrons) from (or within) a material that absorbs electromagnetic radiation (such as light). Einstein's crucial work in this area resolved perplexing questions regarding the particle-wave duality of light. Nevertheless, Einstein's acceptance speech focused on his work in general relativity, a problem that had occupied him for nearly a decade, and whose importance would not be fully appreciated for decades to come.



03. He Co-invented a Refrigerator

Einstein and physicist buddy Leo Szilard came up with an absorption refrigerator that's getting renewed interest decades later. 


Between gas in the pipes and arsenic in the paint and wallpaper, households in the 1920s packed more than their share of deadly substances. Thus it seems appropriate that the transition from the traditional icebox (literally, an insulated wooden box with ice in it) to electrical refrigerators added to the peril by occasionally leaking volatile chemical coolants like methyl chloride, ammonia or sulfur dioxide to poison hapless homeowners.

One such incident in 1926 inspired Einstein to enlist the help of Hungarian physicist LĂ©o SzilĂ rd in designing a new kind of appliance called an absorption refrigerator that required only ammonia, butane and water, plus a heat source for the pump. Patented in 1930, their device relied on the principle that liquids boil at lower temperatures when exposed to lower atmospheric pressures. As pressure in the pipe above the butane reservoir dropped, the butane would boil off, drawing in heat from its surroundings and lowering temperatures in the fridge. Because it had no moving parts, the appliance would last as long as its casing [sources: Jha].

Einstein and SzilĂ rd's refrigerator lost out to more efficient competitors and to the introduction of chlorofluorocarbons, which replaced more hazardous coolants and rendered the compressor fridge safer for people, if not the ozone layer. But new technologies and growing environmental concerns have today sparked renewed interest in their approach, particularly as a means of providing refrigeration in remote and rugged areas.




02. He Was Offered the Presidency of Israel

Einstein declares his opposition to the H-bomb and to the arms race between the USA and the USSR on Feb. 14, 1950, during a TV broadcast that created a considerable stir in the U.S. and all over the Western world. 


Although Einstein made his mark primarily as a physicist, his political views have grown nearly as famous as his scientific achievements. But they were also more complex than many realize.

Einstein was a lifelong pacifist, except when it came to taking up defensive arms against the Nazis, who singled him out for persecution. Moreover, when he realized that scientists in Nazi Germany might be working on nuclear chain reactions with bomb potential, he wrote a letter to President Roosevelt urging that the U.S. government coordinate its own research in the area. The letter may have contributed to the formation of the Manhattan Project, to which Einstein -- much to his relief -- was not invited; the government considered him a security risk due to his many associations with peace causes and memberships in social advocacy groups like the NAACP [sources: Kaku]. Nevertheless, his E = mc2 equation was essential to their successful efforts in making the first atomic bombs [sources: Kaku]. Einstein also helped fund the war effort by auctioning his manuscripts, and worked after the war to oppose the development of the hydrogen bomb and to control nuclear proliferation.

In 1952, Israeli premier David Ben-Gurion offered Einstein the presidency of the newly established state of Israel. Einstein politely turned him down, citing advancing age and stating that his lifelong focus on objective matters had left him unsuited to politics [sources: Einstein; Kaku].



01. His Brain and Eyes Were Stolen

The New York World-Telegram blares the news of Einstein's passing. The 20th century's most famous scientist died on April 18, 1955. 


Einstein intended that his body be cremated and his ashes scattered secretly, so as to avoid the possibility of admirers making a shrine of his grave. But when pathologist Dr. Thomas Harvey walked into the Princeton morgue on April 18, 1955, all of that went out the window. Presented with the opportunity to study the brain of one of the great geniuses of the age, and without permission, authority or experience as a neuroscientist, he absconded with 2.7 pounds (1.2 kilograms) of Einstein's gray matter. He also removed the deceased physicist's eyeballs and gave them to Einstein's eye doctor, Henry Adams. They remain in a New York City safe deposit box to this day [sources: Schifrin; Toland].

A tragicomic series of road trips ensued, with Harvey storing slices and chunks of the brain in jars, first in his basement, then in a cider box squirreled away beneath a beer cooler as he relocated after losing his medical license, then in the backseat of a reporter's car. He apparently intended to study the brain and determine what made it so smart, but in 43 years he never got around to it, perhaps because he moved around so much or because lacked the expertise and funding. Ultimately, he returned most of the brain to Princeton, bringing the physicist's postmortem peregrination full circle [sources: Schifrin; Toland].

10 Cool Things You Didn't Know About Stephen Hawking

 Stephen Hawking

From some of his scientific beliefs to works he's written, there are a few things you might not have guessed about world-renowned physicist Stephen Hawking.


Start the Countdown


Even if you don't keep a close eye on new developments in physics, you've probably heard of the renowned physicist Stephen Hawking. He's prided himself on making his complex physical concepts accessible to the public and writing the bestseller, "A Brief History of Time."

And if you are a fan of Conan O'Brien, "The Simpsons" or "Star Trek," you might have seen him brandishing his cool wit during guest appearances on those shows.

Even if you are familiar with his academic work, however, there are many interesting facts you might not know about Hawking, stretching from his time at school and gradual development of disability to his opinions on the future of the human race.

Many find it surprising, for instance, that, despite his influential body of work, Hawking hasn't yet been awarded the Nobel Prize. We'll talk about some of the remarkable distinctions he has received, however.

Another interesting fact: Hawking was born on Jan. 8, 1942, which just happened to be the 300th anniversary of Galileo's death.

But this has just been the warm-up. Next, we'll delve into some fascinating and unexpected facts about Hawking, including some things about his profoundly inspirational story.


10. Received Mediocre Grades in School

Despite his poor grades early on, Hawking was able to get accepted at Oxford University.


These days, we know Hawking as a brilliant mind whose theories are difficult for a nonscientific mind to grasp. This is why it may come as a shock to learn that Hawking was a slacker when it came to his school studies.

In fact, when he was 9 years old, his grades ranked among the worst in his class [source: Larsen]. With a little more effort, he brought those grades up to about average, but not much better.

Nevertheless, from an early age he was interested in how stuff worked. He has talked about how he was known to disassemble clocks and radios. However, he admits he wasn't very good at putting them back together so they could work again.

Despite his poor grades, both his teachers and his peers seemed to understand that they had a future genius among them, evidenced by the fact that his nickname was "Einstein."

The problem with his mediocre grades was that his father wanted to send him to Oxford, but didn't have the money without a scholarship. Luckily, when it came time for the scholarship exams, he aced them, getting an almost perfect score on the physics exam.


09. Had an Aversion to Biology

Hawking chose to study cosmology at university, even though it wasn't yet a popular field at the time.


Stephen Hawking took a liking to mathematics from an early age, and he would have liked to have majored in it. His father, Frank, however, had different ideas. He hoped Stephen would instead study medicine.

But, for all his interest in science, Stephen didn't care for biology. He has said that he found it to be "too inexact, too descriptive" [source: Larsen]. He would have rather devoted his mind to more precise, well-defined concepts.

One problem, however, was that Oxford didn't have mathematics as a major. The compromise was that Stephen would attend Oxford and major in physics.

In fact, even within physics, he focused on the bigger questions. When faced with deciding between the two tracks of particle physics, which studies the behavior of subatomic particles, versus cosmology, which studies the large universe as a whole, he chose the latter. He chose cosmology despite the fact that, at that time, he says, it was "hardly recognised as a legitimate field" [source: Hawking].

In explaining why, he said that particle physics "seemed like botany. There were all these particles, but no theory" [source: Larsen].



08. Was on Oxford Rowing Team

Oxford University's rowing club practices for a race in 2010. Hawking had served as the coxswain for the school's team nearly five decades earlier.


Biographer Kristine Larsen writes about how Hawking faced isolation and unhappiness during his first year or so at Oxford. The thing that seems to have drawn him out of this funk was joining the rowing team.

Even before being diagnosed with a physically disabling illness, Hawking didn't have what one would call a large or athletic build. However, row teams recruited smaller men like Hawking to be coxswains -- a position that does not row, but rather controls steering and stroke rate.

Because rowing was so important and competitive at Oxford, Hawking's role on the team made him very popular. Remembering Hawking from those days, one fellow boatsman called him "the adventurous type" [source: Larsen].

But as much as the rowing team helped his popularity, it hurt his study habits. Occupied with rowing practice for six afternoons per week, Hawking started "to cut serious corners" and used "creative analysis to create lab reports" [source: Larsen].



07. Was Given a Few Years to Live at Age 21



As a graduate student, Hawking gradually started showing symptoms of tripping and general clumsiness. His family became concerned when he was home during his Christmas break from school and they insisted he see a doctor.

Before seeing a specialist, however, he attended a New Year's party where he met his future wife, Jane Wilde. She remembers being attracted to his "his sense of humor and his independent personality."

He turned 21 a week later, and shortly after he entered the hospital for two weeks of tests to discover what was wrong with him. He was then diagnosed with amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig's disease, which is a neurological disease that causes patients to lose control of their voluntary muscles. He was told he'd probably only have a few years to live.

Hawking remembers being shocked and wondering why this happened to him. However, seeing a boy dying of leukemia in the hospital made him realize that there were others worse off than him.

Hawking became more optimistic and started dating Jane. They were soon engaged, and he cites their engagement as giving him "something to live for" [source: Larsen].

A Nuclear Cloud

When asked why she was willing to marry him, Jane said that in those times they lived under the "most awful nuclear cloud -- that with a four minute warning the world itself could likely end." She says they wanted "to make the most of whatever gifts were given us" [source: Larsen].


06. Helped Create the Boundless Universe Theory

One of Hawking's major achievements (which he shares with Jim Hartle) was to come up with the theory that the universe has no boundaries in 1983.

In 1983, the effort to understand the nature and shape of the universe, Hawking and Hartle combined the concepts of quantum mechanics (the study of the behavior of microscopic particles) with general relativity (Einstein's theories about gravity and how mass curves space) to show that the universe is a contained entity and yet has no boundaries.

To conceptualize this, he tells people to think of the universe like the surface of the Earth. As a sphere, you can go in any direction on the surface of the Earth and never reach a corner, an edge or any boundary where the Earth can be said to "end." However, one major difference is that the surface of the Earth is two-dimensional (even though the Earth itself is three-dimensional, the surface is only two-dimensional), while the universe is four-dimensional.

Hawking explains that spacetime (see the sidebar on this page) is like the lines of latitude on the globe. Starting at the North Pole (the beginning of the universe) and going south, the circumferences get bigger until beyond the equator, when they would get smaller. This means that the universe is finite in spacetime and will re-collapse eventually -- however, not for at least 20 billion years [source: Hawking]. Does this mean that time itself would go backwards? Hawking grappled with this question, but decided no, because there is no reason to believe that the universe's trend from ordered energy into disordered energy will reverse [source: Hawking].

Inseparable Buddies: Space and Time

Time also fits into the Earth comparison. Because Einstein showed that space and time are relative to each other, physicists measure them together in spacetime. And, because of this relationship and mathematical observations showing the universe is expanding, physicists believe time is affected by the expansion of the universe.



05. Lost a Bet on Black Holes


In 2004, the genius Hawking admitted he had been wrong and conceded a bet he made in 1997 with a fellow scientist about black holes. To understand the bet, let's backpedal a little to understand what black holes are in the first place.

Stars are gigantic -- they have so much mass that their gravity is always incredibly strong. This is fine, as long as the star continues to burn its nuclear fuel, exerting this energy outward, thus counteracting gravity. However, once a massive enough star "dies" or burns out, gravity becomes the stronger force, and causes that big star to collapse on itself. This creates what scientists call a black hole.

The gravity is so powerful in this collapse that not even light can escape. However, Hawking proposed in 1975 that black holes are not really black. Rather, they radiate energy.

But, he said at the time, information is lost in the black hole that eventually evaporates. The problem was that this idea that information is lost conflicted with the rules of quantum mechanics, creating what Hawking called an "information paradox."

American theoretical physicist John Preskill disagreed with this conclusion that information is lost in black hole. In 1997, he made a bet with Hawking saying that information can escape from them, thus not breaking the laws of quantum mechanics.

Hawking is such a good sport that he can admit when he's wrong -- which he did in 2004. While giving a lecture at a scientific conference, he said that because black holes have more than one "topology," and when one measures all the information released from all topologies, information isn't lost [source: Rodgers].

A Singular Event

A singularity is a point of spacetime where Einstein's idea of general relativity breaks down because the gravitational forces are so strong. Theoretical physicists believe this happens when a black hole is formed, and may have happened at the creation of our universe [source: PBS]. Hawking's No-Boundary Proposal, however, suggests the world did not begin in a singularity.



04. Has Numerous Awards and Distinctions


President Obama gives Hawking the Presidential Medal of Freedom in 2009.


In his long career in physics, Hawking has racked up an incredibly impressive array of awards and distinctions. We don't hope to be exhaustive in this small space, but we'll go over some of the highlights.

In 1974, he was inducted into the Royal Society (the royal academy of science in the U.K., dating back to 1660), and a year later, Pope Paul VI awarded him and Roger Penrose the Pius XI Gold Medal for Science. He also went on to receive the Albert Einstein Award and Hughes Medal from the Royal Society.

Hawking had so well established himself in the academic world by 1979 that he attained the post of Lucasian Professor of Mathematics at the University of Cambridge in England -- a position he would keep for the next 30 years. The chair dates all the way back to 1663, and the second person to hold it was none other than Sir Isaac Newton.

In the 1980s, he was invested as a Commander of the British Empire, which is a rank in the U.K. just under being knighted. He also became a Companion of Honour, which is another distinction given in recognition of national service. There can be no more than 65 members of the order at one time.

In 2009, Hawking was awarded the United States' highest civilian honor of the Presidential Medal of Freedom.

All the while, Hawking attained at least 12 honorary degrees. However, the Nobel Prize continues to elude him.


03. Is a Children's Book Author

Hawking co-wrote a children's book with his daughter, Lucy.


One of the most unexpected facets of Stephen Hawking's resume is that of being a children's book author. In 2007, Stephen and his daughter, Lucy Hawking, collaborated to write "George's Secret Key to the Universe."

The book is a fiction story about a young boy, George, who rebels against his parents' aversion to technology. He begins to befriend neighbors, one of whom is a physicist with a computer. This turns out to be most powerful computer in the world, which offers portals to see and enter into outer space.

Of course, much of the book is meant to explain heavy scientific concepts, such as black holes and the origin of life, to children. In this context, it is very fitting that Hawking, who has always sought to make his work more accessible, would want to write such a book.

The book was written to be the first of a trilogy that would continue George's adventures. The next one in the series came out in 2009 and is called "George's Cosmic Treasure Hunt."


02. Believes in Possibility of Aliens

Hawking gives a lecture called "Why We Should Go Into Space" during NASA's 50th anniversary celebration in 2008.

Considering all of Hawking's work in cosmology, people are understandably interested in his opinions on the possibility of alien life. During NASA's 50th anniversary celebration in 2008, Hawking was invited to speak, and he mentioned his thoughts on the subject.

He expressed that, given the vastness of the universe, there very well could be primitive alien life out there, and it is possible, other intelligent life.

"Primitive life is very common," Hawking said, "and intelligent life is very rare." Of course, he threw in his characteristically sharp humor to say, "Some would say it has yet to occur on Earth" [source: Hawking]. He went on the say that humans should be wary of exposure to aliens because alien life will probably not be DNA-based, and we would not have resistance to diseases.

Hawking also did an episode on the possibility of aliens for "Into the Universe with Stephen Hawking" on the Discovery Channel (the parent company of HowStuffWorks.com).

In this episode, he explains that aliens might use up their own planet's resources and "become nomads, looking to conquer and colonize whatever planets they could reach." Or, they could set up a mirror system to focus all the energy of the sun in one area, creating a wormhole -- a hole to travel through spacetime.


01. Took Zero-gravity Flight to Save the Human Race


Hawking has said he plans to explore space aboard Virgin Galactic's commercial spacecraft, the first of which was unveiled in December 2009.


In 2007, when Stephen Hawking was 65 years old, he got to take the ride of a lifetime. He was able to experience zero-gravity and float out of his wheelchair thanks to Zero Gravity Corp. The service involves an airplane ride in which sharp ascent and descent allows passengers to experience weightlessness in flight for several rounds, each about 25-seconds long.

Hawking, free from his wheelchair for the first time in four decades, was even able to perform gymnastic flips. Hawking also has booked a seat with Richard Branson's Virgin Galactic to ride on a sub-orbital flight.

But perhaps most interesting about this is not what he was able to do, but why he did it. When asked about why he wanted to do this, he of course cited his desire to go into space. But his reasons for going and his overall support for space travel went deeper than that.

Due to the possibility of global warming or nuclear war, Hawking has said that the future of the human race, if it is going to have a long one, will be in outer space [source: Boyle]. He supports private space exploration in hopes that space tourism will become affordable for the public. He hopes that we can travel to other planets to use their resources to survive [source: Daily Mail].

Read on for lots more information about Stephen Hawking, physics and other related subjects.





Tuesday, November 15, 2016

Trump’s ‘America First’ Policy for the World

What Trump’s ‘America First’ Policy Could Mean for the World



Dr. Howard Stoffer is Associate Professor of National Security at the University of New Haven. Previously, he served in the Foreign Service of the United States and as the Deputy Executive Director of the Counter-Terrorism Committee Executive Directorate of the U.N. Security Council


U.S. President-elect Donald Trump speaks to the press following a meeting with Senate Majority Leader Mitch McConnell at the Capitol in Washington, D.C., on Nov. 10, 2016.


If the President-elect does everything he promised

If President Obama’s foreign policy was characterized by “don’t do stupid stuff” and a retracted U.S. presence in the world, then Donald J. Trump’s will most certainly be characterized by fear and confusion as the world grapples with what “America First” really means. The real estate mogul turned President-elect has been known to change his view on everything from the Iraq War to Vladimir Putin. But if we are to forecast the consequences of Trump’s foreign policy based on his campaign declarations and promises, then the coming months could look something like this.

First, “The Wall” would be constructed and our immigration policy would change drastically, affecting relations with Mexico, the Arab and Muslim world, and others. We could see the construction of a 1,900-mile East German-style wall along the Mexican border, demanding a new budget funded by Mexico (which politely already refused), the federal government or states.

At the same time, the deportation of 11 million or more undocumented aliens (3% of the U.S. population) could begin as soon as Congress approves a special “deportation force” operating outside the existing immigration courts. Trump said Sunday he plans to keep his promise on deportation.

Exclusions and restrictions on all Muslims seeking entry into the U.S. could follow, including registration of Muslims within the U.S., resulting in contentious court challenges.

The U.S. would scrap several multilateral agreements, including the 2016 Paris Climate Accord, NAFTA and the Nuclear Pact with Iran. Some mutual defense treaties and other trade agreements could soon follow. The U.S. would opt out of any pending free trade agreements like TPP or TTIP.

Following the repudiation of defense treaties, the U.S. would pull back or reduce troops stationed in places including Japan, South Korea, the Philippines and Germany, which serve as forward deployments in times of crisis or trip-wires in times of looming war, because Trump could argue that these allies are not paying their fair share. Intense military efforts would be used against ISIS, while the American use of torture, including waterboarding and “a hell of a lot worse” against prisoners, enemy combatants and perhaps their families would increase. Finally, demands on NATO allies to meet their military spending obligations would increase along with substantial threats to those allies.

In return, there would be many consequences to our blind bulldozing of our agreements, commitment or respect for international law under an “America First” policy


Backing out of the Paris Climate Accord would let global warming run wild without any comprehensive restraints. The shredding of NAFTA and other trade accords would result in the disruption of global supply chains that generate billions of dollars in trade between the U.S. and many other countries, especially Mexico. Potential foreign investment in the U.S. from around the world could be diverted. The imposition of heavy tariffs on imported goods, especially from China, would violate WTO rules and could spark a global trade war.

The abandonment of allies and friends would provoke the development and proliferation of nuclear weapons in place of the American nuclear umbrella in Asia, the Middle East and elsewhere. Critical nuclear agreements such as the Non-Proliferation Treaty or plutonium agreements would be degraded or abrogated, encouraging our foes to also pursue increased nuclear development strategies. Scrapping the Iran nuclear pact would give a green light to Iran to go all-in with a nuclear capability. Israel would be under pressure to act alone to deal with a future Iranian nuclear bomb.

Current allies would increasingly turn to the next superpower for protection, probably Russia or China. Robust American military action against ISIS would result in many civilian casualties and will engineer new support for terrorism and violent extremism. NATO would not be able to offer assurances to the Baltic States and countries in Central Europe, as America’s commitment to them under Article V of the NATO Treaty would become negotiable. In turn, this would give the green light to Putin to keep Crimea and continue threatening parts of eastern Ukraine without any expectation of an American, much less continuation of Western, sanctions.

These are just a few of the immediate effects of Donald Trump’s foreign policy as he has articulated in his campaign. Of course, nobody is completely sure what Trump will actually do. His most recent claim in his acceptance speech was that “we will get along with all other nations willing to get along with us” and that “we’ll have great relationships.” Ultimately, the confusion and brashness of his approach could lead to self-destructive results for American interests and stability. Although some may be quick to label these situations as doomsday scenarios, they are the likely outcomes until Trump offers the world more clarity on his foreign policy approach. Unfortunately, it’s likely that we will no longer be theorizing doomsday scenarios; we will be living them.




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