US Navy Just Admitted They've Created Something So Advanced It Can't Be Stopped

The foreign war is changing and so is the weapon that fuels it. Currently, the United States Defense Arsenal is working to adopt new technology to strengthen its weaponry. Join us as we take you on a journey through technology at its peak, designed to keep America in power over the world. status number 10. Navy Multifunction Phased Array Radar The multifunction phased array radar known as empar for short is not new to the US Navy Arsenal. Its origin dates back to an ancient technology called and spy1, which is a US Navy shipboard radar, spy, was first used as a standard air search radar in the 1970s by the US and other allied nations, but this radar was not perfect and had a very high rate of false alarms, as it detected swarms of insects and obstacles from nearby mountains.

It wouldn't have been a problem if it was only intended to be a weather radar, but how can you tell when a threat is really close? Different versions of this Rose radar during the 1990s, during this time NOAA used a spy as a radar. tool for meteorological research, but by 2003 Spy 1 had become the Empire multifunction phased array radar, unlike conventional radars that use a large parabolic dish to focus the radar beam and rely on motors to moving the dish in longitude and latitude Phased arrays are an array of antennas that are composed of different small antennas on a flat panel that steer the radar beam electronically by changing the phase of the signal emitted by each antenna element.

These signals gather in the desired direction and are directed in other directions for those familiar with the physics it is a phenomenon known as jamming this capability of phased array radar makes it more reliable to give the correct alarm when a threat is detected and also Decreases system cost MPAR provides much faster volume scanning, comprehensive wind profiling, and more complete insights into supercellular structure while tracking aircraft. The only drawback of the Empire is that it does not support dual polarization, which means that the signal it gives will be different in the horizontal plane than in the vertical, although the Empire uses great technology and its unique characteristics undoubtedly surpass conventional radar, it had to be removed from its tower structure and has now been

advanced

with a dual polarity feature using lessons learned from the operation of the MPR, this means that nothing can move around this radar without being detected, now the quantum number nine. stealth imagine being able to penetrate an enemy's camp without being seen sounds like magic straight out of that movie this is reality and yes, it is possible with the

advanced

technology used in the construction of quantum stealth anyone can be invisible hyper stealth is a well-known company Canadian camouflage and a highly respected one, but in this invention the company outdid itself.

Hyper Stealth patented the technology behind a material that bends light to make people and objects nearly invisible to the naked eye. Quantum stealth was primarily developed for military purposes to conceal agents. and Equipment such as tanks and aircraft in the field, if soldiers are in a location equipped with infrared and ultraviolet imagers, is no match for quantum stealth. What makes quantum stealth the best of all other camouflage materials is that it is not limited. For specific conditions like forests or deserts, this material also known as invisibility cloak works in any environment or season at any time of the day, but how exactly does quantum stealth do this?

It's all down to the lenticular lens breaking it down for you. It is a corrugated sheet in which each ridge is formed by a convex lens, what you now understand as a lens curved outwards, do not think that it is

something

you have not seen anywhere, it is most likely that you have seen them in bookmarks 3D or collectible football cards, you ask. The reason

they

can't do anything invisible is because

they

are left transparent instead of printed. When several of these lenticular sheets with different lens layouts are layered in the right way, they can refract light at an infinite number of different angles to create what are called dead spots.

By doing so, light will not be able to pass through the dots that hide the objects behind them from whoever is in front, while the background remains the same in case I misunderstood. Hyper Stealth CEO Cramer used a simple illustration to paint a clearer picture in his explanation. He used a glass of water as an example. He said that this material bends light like a glass of water does when a spoon or straw inside it appears bent. , I got it, let's move on, but hey, you still have questions. What if the material is the thickness of a sheet of paper long after quantum stealth was demonstrated?

He showed its ability to perform even in that condition, staying lightweight and cheap to produce, while being substantial enough to also block thermal imaging cameras and, in case you're wondering if this material has any downsides. The bad news is that yes, it requires the subject or object to be kept at a certain distance to be hidden. That's not all when seen from different angles. The effect may be more or less convincing, but overall, I agree that this technology is super amazing. Number eight. The trophy system. Here is another system that will leave you in utter amazement.

The Trophy system is a combination of two different systems including hostile fire detection, also known as HFD, and the APS active protection system. Now let's break it. What this system does is proactively detect localized anti-armor threats and, if necessary, neutralize them. The trophy dramatically increases platform survivability and creates a new paradigm of network threat awareness for maneuver forces. With this system, military forces do not need to worry about anti-tank threats. threats in flight, as it neutralizes them in four stages of engagement, one threat detection, two threat tracking, three countermeasure activation and, finally, threat neutralization. The last stage is not active all the time as some detected threats may not necessarily pose a danger to the platform, but in some cases where the system detects danger, it neutralizes the threat and therefore conserves ammunition and minimizes the possibility of Collateral damage;

In other words, if the opposing side continues to send missiles or grenades at a trophy system armored tank as many times as possible, the tank will remain solid in its state, some of the things that have worried the force are the weight and mobility of weapons. Now the good news is that the power and sophistication of these weapons have surpassed modern armored forces even with their lower weight and mobility trophy. Available in two main configurations: Trophy Heavy Vehicle and Trophy Vehicle Protection System. The system for heavy and medium armored vehicles known as Trophy HV is used to protect heavy and medium armored vehicles from threats ranging from rockets to high-explosive rounds.

The HV trophy offers 360 degrees. of protection and high-angle elevation coverage while maintaining user-defined safety zones for friendly troops on the ground, sounds too good to be true, right. The HV Trophy is fully tested and qualified and in serial production for the Israel Defense Forces, this system has been used by the Israel Defense Forces since August 2009 and has proven its combat effectiveness multiple times against advanced threats, as its lighter weight system can also be used for medium armored vehicles and light armored vehicles. The Trophy technology was redesigned to be smaller and lighter: It retains all the performance and features of its larger predecessor, while allowing greater integration into medium and light weight armored vehicles.

The vehicle's protection system also offers room for additional protection technology as time goes on. This system makes it seem like the soldiers simply need to stay in the tank and do nothing number seven Future Force Warrior The Future Force Warrior is another good technology in modern weaponry. It uses technologies such as nanotechnology-powered exoskeletons and magneto-fluid-based body armor to provide infantry with a significantly increased force multiplier. that the Opposing Force, this concept is not traditional for the US or any other military and was not intended to solve all the problems the force will face in the years to come; however, it was

created

to see how it can help soldiers in the future.

In the first phase of the project, the technology was developed to help reduce the soldier's combat load and energy requirements. At the same time, this system will help improve soldier protection and also create environmental and situational awareness. The initial plan was to introduce the subsystems every two years. A major release is planned every 10 years, but after seeing what this technology can do, the US military is looking to start full production of the future Force Warrior, this system is designed in a way that would make you think about your Favorite science fiction movie. The uniform is being developed under the Future Combat System Program and includes a head-to-toe personal protective weapon, an onboard computer network, power sources used by soldiers and enhanced human performance.

The first type of the future Force Warrior system was

created

in 2010 and will also be used for more immediate, short-term battlespace demands. Another amazing thing to note about this uniform is that it is less heavy. It has been discovered that soldiers carry large amounts of external weight, often 55 kilograms or more, to be ready for battle, but the new uniform will only add 22 kilograms to their normal weight. The uniform's bulletproof vest is also capable of absorbing the Impact of a bullet much better than bulletproof vests The shell-type bulletproof vest has been separated from the body by five centimeters, so if the soldier is shot the force is distributed more evenly to reduce injuries such as broken ribs.

This is definitely what every force should have. Damage number six Agm-88. Let's start with the acronym Damage. It means high-speed anti-radiation missile. It is a tactical weapon fired from a fighter. aircraft and, of course, damage, damage, can detect and counter radiation emitted by hostile radar stations that have ground-to-air detection capabilities. This is a system designed to find and destroy radar-equipped air defense systems. It has high speed and has a solution for radiation, can detect an attack and destroy an enemy target almost automatically and therefore needs little human assistance to operate. After detecting signals coming from a threat directly from the ground, it identifies the main and real target from different ground emitters and then destroys it.

The weapon is powered by smokeless dual-thrust rocket engines and can be deployed by Navy and Navy FA-18 and EAGB aircraft or the Air Force's F-16C. It weighs 800 pounds and is less than 14 feet long and

just

10 inches in diameter. It has a range of over 30 miles and can travel at over 760 miles per hour The missile has a fragmentation warhead and is functional for radar targets The missile also carries an antenna and an anti-radar Seeker broadband RF receiver with a robust digital state processor all of these features make it almost possible to miss your target number five multiple reentry vehicles with independent targets multiple reentry vehicles with independent targets The vehicles known as MERVs for short were originally developed in the early 1960s To allow a missile to deliver multiple nuclear warheads to different targets, the traditional missile would carry a single warhead to attack, but the Merv can carry multiple warheads.

A good example is a Russian Merv missile that is under development. It can carry no less than 16 warheads simultaneously with each of them. Being on a separate reentry vehicle, you now have an idea of ​​how this system's name came about. The warheads, non-MERV missiles, can be launched from the missile at different speeds and in different directions, some Merv missiles can hit targets up to 1,500 kilometers away, land-based Merv missiles are considered particularly destabilizing. These missiles are a much more effective target compared to traditional land-based missiles because a single attacker can eliminate several of the enemies from it. warheads at the same time.

The initial intention was not to defeat. defense against ballistic missiles, but they are much more difficult to defend than traditional missiles, forTherefore, we can say that they are effective countermeasures. It is necessary to know that the development of Merv technology is not easy, it requires a lot, which includes the combination of large missiles, small warheads. precise guidance and a complex mechanism to release warheads sequentially during flight. The first country to develop Merv technology was the United States. They deployed a Merv ICBM in 1970 and a submarine-launched ballistic missile in 1971. The Soviet Union did not waste At the same time, they did the same almost immediately and, by the late 1970s, had developed their ICBMs and Merv-enabled slbms.

Today, not only the United States uses this technology, but also the United Kingdom, France, China and Russia, however, the United Kingdom and France use Mirv technology in Merved ICBMs, while Russia deploys ICBMs. Merv and slbm, considering how long this technology has been in use, it is most likely that the number four air defense system Iron Dome will not be abandoned anytime soon the Iron Dome air defense system is a multi-mission mobile air defense system developed by Raphael Advanced Defense Systems. The development of the system aims to counter very short-range rockets and threats from 155-millimeter artillery shells with ranges of up to 70 kilometers, unlike some air defense systems, it can operate in any weather. conditions including fog, dust storms, low clouds and even rain, the all-weather air defense system protects the population and critical assets and can be strategically located to reduce collateral damage when you heard about the multi-mission air defense system, It was no joke, the Iron Dome.

Detects, analyzes and intercepts a variety of incoming threats, including attack, which means countering rocket artillery and mortar with precision. Guided missiles, Cruise missiles, Unmanned aerial vehicles and air-breathing threats. So far the system has intercepted more of 2,500 incoming targets with a success rate of more than 90 percent the Israeli Ministry of Defense selected this system primarily to protect civilians on Israel's northern and southern borders. As a result of rockets launched by Hezbollah during the Second Lebanon War in 2006, some 4,000 rockets, mostly of the short-range Katyusha type, were fired at Haifa and other regions of northern Israel. During that war, 44 Israeli civilians were killed in the attack and approximately 250,000 citizens were evacuated and relocated to other parts of Israel.

Israel suffered greatly from enemy rockets and mortars between 2000 and 2008. More than 4,000 mortars and four thousand rockets were fired from Gaza into southern Israel as the range of rockets was expanded due to the introduction of rocket launchers. 122 millimeters. Nearly 1 million southern Israelis were within range to counter the threats. Israel's Defense Ministry decided in February 2007 to develop a mobile air defense system after the world learned about the Great Iron Dome. capabilities the United States House of Representatives wasted no time in approving $205 million to accelerate its production and deployment back in 2010. The Iron Dome is indeed a lifesaver now it's time for today's subscribers choose this image that shows a powerful reaction that looks like lightning It hit the surface of the sea causing a terrible reaction, but lightning can't

just

do that in water.

What do you think caused that reaction? Do you think it's some type of weapon that runs on water? Do you think this is representative of one of the weapons? We have presented to you Here, let us know in the comments section below, military hololens number three. This particular technology is interesting as it can be used by civilians and not just soldiers. Hololens were created by Microsoft and were initially created for the enterprise market. The headsets are the first self-contained holographic computers, meaning they do not need to be connected to another device, such as a laptop or smartphone.

Holographic lenses use augmented reality technology and their lenses display digital information and graphics that sound fun, yes, you can see them. They appear as if they are right in front of you and you can interact with the information provided using voice commands and hand gestures. The microprocessors in each earbud constantly map your environment and track every movement around you, meaning the digital information you receive stays in place even if there is movement, the earbuds also have multiple sensors that allow users to interact with the content. Digital, for example, soldiers can use their hands to gesture as they would with a touch screen, in case they are in a place where they would not want to use it. their voices can easily use their hands the main goal of military modernization of their equipment is to reduce casualties and improve accuracy and effectiveness, holographic lenses are one of the modern equipment to help achieve this, although the government has not publicly stated What You Hope to Achieve With Holographic Lenses The features give us some clues as to what to expect.

The holographic lenses will allow soldiers to see their surroundings clearly even when it is dark. They will serve as a light for anyone who uses them, but not for others in the same environment. That way soldiers can move in the dark without alerting their enemies with the light. It also makes it easier for them to see around corners and through smoke. That way they can reduce the risk while carrying out their operation. Holographic lenses also provide soldiers with digital information without anyone else knowing. When soldiers are carrying out an operation, the commander can easily detect the enemy's location and plot it for the rest of the troops to see without alerting the enemy. , all the commander needs are his hands to perform that operation.

Initially, troops had to rely on maps and other two-dimensional resources to navigate terrain, but this can be difficult to achieve if enemies constantly change their positions with holographic lenses. Soldiers can see a three-dimensional representation of their environment, this will help them. avoid ambushes and make better strategic decisions as you know that a soldier must be quick and at the same time be careful in cases where there are victims and perpetrators in the same building, holographic lenses make this easier as it allows soldiers to Soldiers identify targets easily, reducing the risk of unintentional pain and public scandal caused by misidentification of targets.

What's more, augmented reality allows soldiers to train in more realistic scenarios that match their missions. The best way to train or practice is to make it real and hololens are here to make that happen by doing it. Therefore, it can improve accuracy and reduce risks, and these are not only the risks that soldiers face in battle, but also the injuries they sustain while training. Hololens are, in fact, all shades of safety and good number two unmanned marine vehicles. Unmanned marine vehicles can be unmanned underwater. Vehicles also known as uuv or unmanned surface vehicles Vehicles also known as USV the main difference is that one travels on the surface of the water while the other travels underwater let's start with the uuv unmanned underwater vehicles known as uuv for short and a Sometimes known as underwater drones, they are submersible vehicles that can operate underwater without a human occupant.

Not great, but how do they work? These vehicles can be divided into two categories: remotely operated underwater vehicles and autonomous underwater vehicles. The vehicles also known as auvs rov are controlled by a human operator. but it is done remotely just as the name suggests, while the auvs are automated and operate independently of direct human intervention, the uuv has external fins perpendicular to its structure that allow linear movement of the uuv and deeper controlled dives. These gliders use propulsion derived from increasing buoyancy. the duration of the dives and their range through movement up and down in the ocean there are different designs of the uuvs that include the manta ray which was developed by researchers from the Chinese University in September 2021.

It was designed to collect information about the shisha islands. There are some uuvs designed to mimic the silhouettes of animals to facilitate movement and avoid detection. However, the stingray design allows the UUV to camouflage itself with marine life and contributes to the ease with which the boat swims in the water. There is also oxygen, hydrogen, air, independently. Propulsion Design UUVs are naturally oxygen-dependent vehicles that require oxygen to resurface, but with the development of a propulsion unit that does not require oxygen or hydrogen, the ability of the UUV to remain continuously underwater increases dramatically and, ultimately, lithium water energy source designs the The newest source of energy for uuvs could be the free energy reaction of lithium or water as it produces 8530 KGG salary.

Its energy is five percent above established sources of energy densities found in current uuvs. USVs, on the other hand, travel on the surface of water and vary in size. The smallest ones, measuring less than 10 feet long, are generally intended for research and data collection. They come with sensors below and above to take measurements and also other features that would help them get accurate data. they use electric motors for propulsion with batteries as an included component some offer a diesel electric system for longer missions that last about a week or solar panels for even longer trips that can last up to a month there are medium-sized unmanned aerial vehicles that do not They are manned surface vehicles with a range of 10 to 30 feet.

USVs of this class are multipurpose. They are used for scientific and commercial purposes. For the largest USVs, they are over 30 feet and as big as a supertanker that unmanned marine vehicles will make. Good equipment for naval forces, but unfortunately not currently in use as regulations restrict its use. It needs to be tested properly because there will be no human being with the vehicle to operate it. The number one laser weapon system, this system is an effective type of weapon. that uses lasers to inflict damage is a type of directed energy weapon called DWS DWS are electromagnetic systems capable of converting chemical or electrical energy into radiated energy and focusing it on a target.

There are different types of du's but we will focus on the laser weapon. Different types of lasers have been identified as possible non-lethal weapons due to their capabilities; they can cause temporary or permanent loss of vision when directed at the eyes. This effect of the laser on the eyes depends on the power of the laser, the wavelength, the collimation of the beam orientation. of beam and duration of exposure Lasers with a power of less than one watt are capable of causing immediate loss of vision under certain conditions, making them potential non-lethal but incapacitating weapons; However, the use of such lasers is morally controversial due to their extreme effect.

In humans, weapons designed to cause temporary blindness known as dazzlers are used by military and sometimes police organizations, as effective in combating the enemy. Pilots have been exposed to lasers while flying and have fallen victim to the weapon, so it is not advisable to use it in any space anyway. Currently, laser weapons capable of directly damaging or destroying a target in combat are still in the experimental stage. The general idea behind laser beam weaponry is to hit a target with a train of short pulses of light. The U.S. Navy has tested the one-mile, 30-kilowatt very short-range laser weapon system for use against small targets such as rocket-propelled grenades and visible boat or helicopter engines.

Research and experiments with directed energy weapons, including lasers, have been done for years, but it still remained. However, at the experimental stage it is unclear if and when this technology will be implemented as a practical high-performance military weapon. One of the main problems with laser weapons is atmospheric thermal expansion, which is still largely unresolved. This problem is exacerbated when there is fog. smoke dust rain snow smog foam or intentionally dispersed dark chemicals present in essence a laser generates a beam of light that requires clean air or a vacuum cleaner to operate, if laser weapons were used in the future aextensive development to limit its effects to a particular target, not especially at very close range, but for now it remains restricted thanks for watching and see you in the next one.