What are the 10 most surprising technology in the world, that will Surprise You For Sure? We’ve all heard of technological breakthroughs and innovations in the previous decade or two, such as the Curiosity rover on Mars and self-driving automobiles. But here are 10 inventions that sound like they sprang right out of Isaac Asimov’s fiction, but they don’t. Continue reading to learn more about death rays placed on naval ships and bullets with their thoughts. 10 innovations that will wow you.
List the 10 Technologies That Will Surprise You For Sure:
10. Helicopters Turn into Planes Then Back into Helicopters
The Bell Boeing V-22 Osprey tiltrotor aircraft is one of the technologies that will surprise you. It is essentially an aircraft that takes off and lands like any other garden-variety helicopter, but in flight, it transforms into a turbo-prop aircraft by tilting its engines forward to act like a normal aircraft engine. “With its rotors in the vertical position, it can take off, land, and hover like a helicopter,” according to Boeing’s website. Once in the air, it may transform into a turboprop aircraft capable of high-speed, high-altitude flying.”
It has a cruising speed of 446 km/h, compared to the Chinook helicopter’s cruise speed of 240 km/h, and it has a far greater range than modern helicopters, with the ability to deliver up to 32 combat-ready men anywhere within a 722-kilometre radius.
According to one Marine general, the Osprey “reduced a fighting field the size of Texas to the size of Rhode Island.” It is now on duty with the US Marine Corps and the US Air Force, performing everything from transporting Marines throughout Afghanistan to evacuating sick soldiers from combat zones.
9. Bionic Limbs – technologies that will surprise you
Artificial limbs have been around for a long time, ranging from archaic wooden peg legs (think pirates) to the ungainly prosthesis Terry Fox wore on his cross-country fundraising marathon. They were heavy and rigid, but in the twenty-first century, we have ultra-light limbs made of carbon fibre and titanium that may cost up to $45,000, and we now have bionic legs that can be operated with your thoughts.
Gudmundur Olafsson lost his lower leg as a youngster after being struck by a vehicle, but he now has a customized robot foot manufactured by the Icelandic business Ossur that he has been using every day for more than a year and that can move on command like a genuine foot. Sensors were implanted in his residual limb during a 15-minute minimally invasive procedure. The prosthesis’s star is the robot ankle, which moves depending on whatever sensor detects an impulse in local muscle tissue. Gudmundur’s calves are mirrored by the robot’s foot as he flexes them.
“It’s a little unreal,” he admits. “To be honest, I began crying the first time. You’re moving the ankle, and I haven’t had one in over 11 years.” It enables him to redistribute his weight more evenly and prevent muscular atrophy, which is typical in amputees. Nobody knows when or how much it will cost, but fully-functional minimally-invasive robot legs would offer many people a new lease on life, and maybe in 50 years we will be able to switch our tiny human arms for carbon-fibre robot arms.
8. Invisibility Devices – Technologies That Will Surprise You
In the Crysis games, you play as a super Soldier in a suit with the ability to become invisible and throw aliens about like Hacky Sacks. Outside of video games, scientists at the Dallas NanoTech Institute bent light around sheets of carbon nanotubes, which are one-atom-thick sheets of carbon wrapped up into minuscule tubes, to successfully hide them.
The key to their approach is the mirage effect, which enables dying travellers in the desert to believe an empty stretch of land is an oasis. The temperature differential between sand and air bends light rays, guiding them towards the unsuspecting traveller’s eyes rather than bouncing them off the surface. This results in a “puddle of the sky” on the ground that any desperate dying traveller would mistake for water.
The carbon nanotube sheets were dipped in water and heated, which heated the water, causing light to bend away from the sheet and obscure whatever was behind it. It’s useless as a military cloaking device since it requires you to wear a super-hot suit that must be submerged in water, but it’s surely cool as heck.
7. Electromagnetic Railguns – Technologies That Will Surprise You
Electromagnetic railguns are one of the technologies on our list of things that will surprise you. Remember in Transformers: Dark of the Moon when Agent Simmons orders a “railgun” assault from a destroyer on a massive Decepticon atop the Pyramids of Giza?
A railgun, for the uninitiated, is essentially a collection of magnets used to drive a projectile. Small-size railguns have existed at colleges, but the US military was able to develop one that, according to a US Navy official, had the effect of “a freight train passing through the wall at a hundred miles an hour.”
After years of development, the US Navy debuted a real-life rail gun at its Science and Technology Expo in February that can fire projectiles at seven times the speed of sound and reach targets 110 miles distant. Even better, the USNS Trenton has been outfitted with a rail gun for testing reasons. The construction of battle-ready railguns for the next generation of US Navy combat ships is scheduled to commence in 2028. If everything goes as planned, missiles and shells may become obsolete in the next century or so.
6. Laser Weapons – Technologies That Will Surprise You
We don’t have anything remotely close to the awesome destructive power of the Death Star from Star Wars, but the US Office of Naval Research has developed the currently operational Laser Weapon System (appropriately shortened to LaWS—do they have a special committee that comes up with all these incredible names?) which has been deployed since 2014 aboard the USS Ponce Sailors aboard the ship use the laser daily and have even used it to kill targets. What career offers the chance to kill objects with lasers?
The LaWS is made up of six normal-ish lasers fused into one death ray with a power of 30 kilowatts, and it can roast UAVs and boats for 59 cents each shot, which is a lot less than a $759,000 missile that you can only use once. Other lasers include Lockheed Martin’s Area Defense Anti-Munitions (ADAM) system, which protects against incoming projectiles, and Boeing’s 10kW High Energy Laser Mobile Demonstrator. Laser weapons may be among the technologies that astonish you, but they will become a reality eventually.
5. Ion Engines
The omnipresent TIE fighters of the wicked Empire in the Star Wars trilogy (the original trilogy, mind you!) are propelled by twin ion engines, thus the name TIE. You might be surprised to learn that ion engines exist outside of science fiction, though they are nowhere near as powerful as they are depicted in movies. The Dawn spacecraft takes 4 DAYS to accelerate from 0 to 60 miles per hour! Ion Engines are one of those technologies that will astound you yet exist.
NASA scientists created a functioning prototype of an ion engine in 1959, and it was attached to the Deep Space 1 and Dawn space probes. The Deep Space 1 probe traversed 263 million kilometres at a maximum speed of 4.5 kilometres per second, while NASA’s new HIPEP thruster has exhaust velocities of more than 90 kilometres per second.
Ion thrusters operate by rapidly expelling an inert gas (remember high school chemistry?) to generate a modest amount of acceleration. Even though the push generated is fairly little, vessels powered by ion engines may achieve extremely high speeds because ion engines create a small thrust for an extended period.
4. Bionic eyes – technologies that will surprise you
Ray Flynn, an 80-year-old British man with the most frequent kind of blindness, Age-Related Muscular Degeneration, was fitted with the Argus II implant (which costs a cool $150,000) in June, which may seem like something out of The Six Million Dollar Man. When the gadget was turned on, he was able to quickly discern the outlines of people and things with his eyes closed, and his eye doctor, Dr Paulo Stanga, is confident that it will only improve with time.
The Argus II, manufactured by California-based Second Sight Medical Products, works by converting a video feed from a camera attached to his glasses into signals that are sent to tiny electrodes attached to undamaged cells in his retina, the part of the eye that detects light and sends it to the brain. After that, the unharmed cells are activated and transmit messages to the brain. The Argus II is one of those technologies that may surprise you. Yet, it is permitted for commercialization in the European Union and the United States under a ‘humanitarian device exception.’
3. Self-Guiding Bullet – Technologies That Will Surprise You
Unlike in Call of Duty, real-life sniping necessitates consideration of elements such as range, bullet drop, gravity, wind speed, humidity, and even the rotation of the Earth, in addition to target movement and the unavoidable wait between fire and impact. The geniuses at the Defense Advanced Research Projects Agency (DARPA) have pulled another rabbit out of their magic hat, the EXACTO (Extreme Accuracy Tasked Ordnance- Who comes up with these names?) Self-guiding bullet, which is modified.50 cal bullet.
That’s correct, a SELF-GUIDING BULLET is one of those technologies that will astound us. That can spin in mid-flight. The system’s specs are (obviously) classified so high that you’ll need a telescope to see them, but among the EXACTO system’s skills include the capacity to bring down targets at 2000 meters and perform abrupt spins mid-flight. It can also strike moving targets, whether shot by a skilled marksman or a beginner.
It employs some navigation system (fueled likely by wizardry or beard clippings from Chuck Norris, since it’s classified) to account for weather and other conditions that may cause it to miss the target. Consider bullets that can swerve around barriers to strike things (such as humans) behind them. Should we be afraid, awestruck, or both?
2. Organs Grown In a Lab
Humans may not have to worry about petty issues like organ failure in the far future. Researchers at the University of Edinburgh in Scotland have succeeded in growing a fully functional organ in an animal, in this instance mice. They were able to fool cells from a mouse embryo into believing they were intended to develop into a thymus, an organ of the immune system. The cells were subsequently implanted into lab mice, who developed into completely functioning thymuses. They haven’t yet found out how to apply the same method to people.
Blood arteries, windpipes, and bladders have also been created in the lab. Scientists created scaffolds that were “seeded” with the patient’s cells before being put into the patient. A patient in Spain has also received a bespoke titanium rib cage. Who knows, maybe in a hundred years we’ll be able to just purchase new organs and change them out. Let us hope that science remains on the correct road in this area of study.
1. Fusion Reactors
The Fusion Reactor is ranked first on our list of technologies that will astound you. Fusion reactors, like the European JET Tokamak reactor and the under-construction ITER reactor, use the same processes that occur in a SUN to create power. Many people may find it difficult to believe. Hydrogen atoms clash in the Sun, then fuse into heavier helium atoms, emitting enormous quantities of energy in the process.
To create energy on Earth, a fusion process between two hydrogen isotopes, deuterium and tritium, is used. A temperature ten times greater than the temperature at the Sun’s core is required for the reaction to occur. At these temperatures, electrons split from nuclei, resulting in a highly hot, electrically charged gas known as plasma.
The plasma is confined by massive magnets, and the neutrons released by the reaction will be utilized to generate heat, which will be converted to energy by turning turbines. When compared to previously developed technologies like fossil fuel plants, this may seem to be a lot of difficulties to create power, however, fusion reactors only emit helium and minor radioactive waste that may be recycled in a hundred years as by-products.
Helium is a gas that has little chemical activity and is used to fill floating balloons, and waste radioactive waste from fusion reactors is significantly less hazardous than waste from fission reactors. Coal plants and their fossil-fuel-burning cousins emit massive volumes of greenhouse gases, which contribute to global warming.
Fusion reactors represent the future of clean energy generation for our species, as we must fulfil expanding energy needs from a growing population without exacerbating pollution. Companies like Lockheed Martin are now developing small fusion reactors that can be used in extremely exciting applications like travelling to Mars (we’re looking at you, Elon Musk, make it happen!) and building aeroplanes that can fly for a year without refuelling.