The ability to change networks is a new tool for AI.

"An artist’s concept of the Polylingual Experimental Terminal (PExT) transmitting data. Credit: NASA/Morgan Johnson" ScitechDaily)

The AI is the frame that connects network segments. Into one entirety. In robot technology. One robot group, or a drone swarm. Operates under individual network segments. The ability to switch between networks helps to spread information through multiple robot groups. 

The new technology allows the spacecraft to switch networks during flight. And that technology can be fundamental to training AI-based aviation and robotics technology. The same technology. That works with the spacecraft works with drones. And that’s why the ability. To change. Between networks is a tool that makes it easier to train robots. The AI can spread that information across the network. The feedback system can collect information. And deliver it into the digital twin. That operates in simulation. The simulation is the imagination of the AI. The AI can use digital twins for a self-learning process. 

The robot can be part of the training network while the operators train it. And then the robot switched to the operational network. So the robot can transfer its training to other robots in the network. And that is the next-generation tool that can make AI-based robot training effective. The system. It can also bring new skills. For robots, oppositely. The remote-controlled robot. It can act as the pioneer. The robot can get its mission data from the operational network. And then it can transfer that data to the training networks. Or training interface. There, the other robots can take that information. Or in the cases of the military simulation, the other robots try to find weaknesses. 

From those tactics. The ability to switch between networks is the thing. That can save the system. In the case of computer viruses. Or other types of corruption. If drone swarms can switch between networks, that increases their immunity against jammer systems. These types of tools. They can also get information and then spread it. Through all of those systems. The prime mover can collect information. And then deliver it over the drone swarms. And that makes those systems fundamental. The platforms. That mission is to get information. They can operate in different networks than the prime attack actors. And that is one of the principles in the AI-controlled drones. 

Computer viruses can be a big threat to AI-based systems. The attacker can slip virus code into the robots by spoofing the robot’s control signals. Maybe attackers cannot take drones. In control. But they can destroy the command algorithms. 

When we think about movies like The Terminator, we always forget one thing. AI-controlled robots are not like humans. They are operating as an entity. All of those robots communicate with each other. They form the network. That means that when one robot sees or hears something. Other robots hear something. When somebody tries to destroy one Terminator. That robot sends information to others. That forms the robot groups or swarms. This means that. Those counteractions just teach those robots and AI to operate more effectively. The same thing. That affects humanoid robots, which affects other types of robots. This means that drone swarms must be in their own network segment. The robot is always vulnerable to computer viruses. So, if one of those network segments is polluted. The other segments will stay clean. 

One of the new threats that the AI-controlled drones can face is computer viruses. Those viruses can destroy the most complex algorithms in minutes. The AI-based tools. They can make it possible. To generate new viruses very fast. This means that the AI-based drones require new protective applications. There is a possibility that computer viruses will slip into the system in the command code. The attacker will try to infect those drones by spoofing the control signals. And that can cause a situation. There, the computer virus can destroy the control algorithms. That makes AI helpless. 

https://scitechdaily.com/nasas-new-technology-lets-spacecraft-switch-between-networks/

Is this the new F-47 concept?

Above:  Is  this the new F-47 concept?

Images from AREA-51 introduce a strange, possible hypersonic stealth aircraft. This mystery aircraft uses the “Christmas tree” stealth technology, if the article in the TWZ is right. This means that the first flying prototypes of the F-35 successor are airborne. The fact is this. The F-35 is one of the most fundamental aircraft types on Earth. 

The aircraft has shown its superiority in Iran and other conflicts. And it's the state-of-the-art technology. But the permission to export that aircraft is the thing that causes suspicion that something more fundamental than the F-35 Lightning II is already operational. And maybe that interesting-looking concept is some kind of part of that thing. The new 6th-generation jet fighter. It will be faster, capable of hypersonic speed. The hypersonic system can drop drones into the atmosphere.

The idea of a jet fighter that can make a ballistic jump out of the atmosphere.  And return is not new. In the late. WWII. Nazis conducted theoretical research with a project called “Sibervogel” (Silver Bird). The idea was to create the trans-atmospheric vehicle, TAV. The suborbital bombers are also planned in the Soviet Union. But the Sibervogel was too complicated for the 1940s technology. And that system remained as a concept ark. 

The TAV vehicle could deliver a 45 kg concrete projectile to the target. The speed of those projectiles could be Mach 4 to 10. The project was too complicated. But the idea of the hypersonic aircraft. 

"Sibervogel" concept

X-15

The SR-72 Darkstar

That could jump out of the atmosphere. And then release. A kinetic energy ammunition to target remains. The X-15 rocket planes launched under the B-52. Those rocket planes were pathfinders for space shuttles. But during that project, USAF researchers developed the ability to create the space fighter.  This kind of system can act as a “super A-10”. 

The hypersonic aircraft that shoots concrete bullets at the target can cause a devastating effect. Another thing. Tha. This kind of aircraft. can carry ASAT weapons. The hypersonic aircraft that carries anti-satellite missiles. It can be a very powerful tool. The SR-72 Darstar is a more advanced concept. That can.be used as a base for the F-47 program.

The Darkstar is as fast as X-15. So, it can have many fundamental roles. The speed of both systems is about Mach 6. 

The hypersonic aircraft can travel to very high altitudes. And maybe, even to jump outside the atmosphere. This system must also have the capacity. To cooperate with drone swarms and other autonomous and semi-autonomous systems. The new AI-based systems are more fundamental than people expect. When the jet fighter pilot operates. The highly advanced jet fighters, like the F-35. Those pilots also train things like AI-controlled digital twins of the jet fighter. The digital twin can operate as an opponent in highly advanced simulations. But those digital twins.

They can be used to control AI-controlled aircraft. There are many suspicions about those next-generation jet fighter systems. And one is that. Maybe there are manned and unmanned versions of those futuristic jet fighters. That should be more advanced and more capable than jet fighters that are already in use. The new jet fighters can have both manned and unmanned versions. 

And they can cooperate with a loyal wingman and other drones. Their computers and telecommunication systems. They can cooperate with other aircraft, unmanned systems, and ground. And ship-based observation platforms. And that means they are acting as centrons in the very complex automated systems. But then we must realize that things like EMP and high-power jammers. They can damage that communication interface. 

https://www.twz.com/air/area-51-mystery-aircraft-prompts-interest-in-christmas-tree-stealth-fighter-concept

https://www.twz.com/air/is-this-a-glimpse-of-the-aircraft-that-gave-birth-to-the-f-47

https://en.wikipedia.org/wiki/Keldysh_bomber

https://en.wikipedia.org/wiki/Lockheed_Martin_SR-72

https://en.wikipedia.org/wiki/Silbervogel

https://medium.com/@batrobin/is-this-the-new-f-47-concept-13e839353795

The mosquito-killer can be used for drone-killer technology.

The AI enthusiast and inventor created the laser-based mosquito-killer system. That system killed all the mosquitoes in that person’s home. The laser beam zaps those mosquitoes. That the AI-based machine view detects. The same system that controls the bug-killer lasers can also control more high-power lasers. And that means this person. Whose name is Cheng, also created a new type of air defense system. This type of machine vision can also control the air defense systems that use lasers to intercept targets. Like incoming missiles, drones, and aircraft. 

The system can use optical detectors that are immune to stealth technology. And active jammer systems. If the machine-view-based anti-aircraft system uses camera systems for target detection. That can be. a very big threat to the stealth fighters. The passive camera system. It can measure the distance to the target by using two  cameras. And triangular measurement. When those two AI-controlled cameras keep the target in the middle of their crosshairs. 

That system can detect the position of the incoming target, even if it is very fast. In that system. The machine view makes it possible to aim the cameras at the right point. And the AI keeps them locked to the target. This system can operate with anti-aircraft. Or, field artillery. As well as. It can track drones. Then the system measures. The angle of the cameras. Or it measures the vertical and horizontal angles of cameras that follow the target. The system is invisible to ECM. And if it sees the aircraft. It can follow and ambush it. Very accurately. 

The ECM and ESM don’t see passive systems. That doesn’t send any radiation. If the system uses laser beams. It can cause big damage. To the aircraft or missiles. The machine view can be the tool. That can solve the problems of the next-generation air defense. The machine view interconnects multiple sensors. Like radars, lidars, and cameras. The system tries to find markings of the stealth fighters. By trying to detect the turbulence or pressure waves that the aircraft sends. 

https://defensefeeds.com/military-tech/navy/laser-weapon-systems/helios-laser/

https://www.tomshardware.com/maker-stem/robot-kits/the-ultimate-mosquito-killer-uses-lasers-and-ai-custom-model-trained-to-detect-and-lock-lasers-on-these-pests

Can drones end the existence of the jet fighter?

Above: F-35 Lihtning II

Drones are the game changers. The big problem is this. The drones are a new dimension for strike capacity. The use of kamikaze drones and drones as miniature reconnaissance planes. It is not new. But the Ukraine war. It is the first. Those include systems used as large-scale weapons. Before that, the drones were used against single targets. And they were meant for assassination operations. But in the Ukraine war, drones play a vital role. 80% of the losses. Form because of drones. Drones are not replacing all weapon systems. But they can cooperate with them. 

Drones, and even fiber-optical drones, can be remotely controlled over the internet. The control station requires only an internet connection. So, those systems can be connected to any internet socket. And that means the operator can sit over thousands of kilometers. 

The problem. Pilots cannot avoid anything that they don’t see. 

The fact is that drones bring at least a new dimension to air defense. Even if the drones that Ukraine uses against Shahed-136 drones are small and slow. Those drones can threaten the low-flying jet fighters. The hovering drone is dangerous. If a jet fighter impacts with drones. They can cause bad damage or even destroy those jet fighters. In this scenario, those very small drones can act as hovering mines. And if pilots don’t see those drones. That can cause destruction. There is also a possibility that Shahed-sized drones can carry air-to-air missiles. Those missiles can be dangerous to jet fighters. If they do not detect those drones or missile launches. The image-recognition systems make stealth fighters vulnerable to those missiles. But the use of them requires. That. Those systems detect the fast-moving fighter. 

Also, even small drones can be dangerous. If operators are used against soft targets like aircraft. The new AI-controlled drones can attack targets independently. And even a small drone can make a hole in the aircraft’s body. Large-sized drones . They can have the ability. To shoot missiles and rockets. But they also involve internal warheads. The jet fighter can also drop small drones into the operational area. And those drones can point targets to the laser-guided bombs. The AI-controlled bomb can see the image. Of the target. That's the drone's laser points. And then it can home in on its target using the image stored in its computers. 

The problem with drone swarms is simple. They can involve even thousands of drones. Those drones can be easy targets. But that requires defense systems. And the biggest risk is that. The defender uses all its ammunition on those drones. The defender cannot allow any drone to pass the defense. Even a single drone can destroy communication antennas or fuel and ammunition storage. If a jet fighter uses all its missiles and ammunition on drones. It's possible that the enemy fighters can intercept them. Same way. Drones force the air defense to open fire. And that uncovers the AA-systems positions. 

Ukrainian Sting interceptor drones. Their speed is about 343 km/h. So, they could be dangerous to A-10 Wrthogs and helicopters. But a jet-fighter could avoid them. Because of their speed and altitudes. 

The role of the jet fighter in the future is more complex. It will cooperate with drones and other systems. It can have loyal wngman drones and drone swarms. It can send to risky missions. It can communicate with drone containers that shoot defense drones against attacking drone swarms. And in attack situations, those jet fighters can send drones to destroy air defense. In those cases, the swarm of drones and missiles travels ahead of jet fighters. The drone delivery ability. It brings new roles for jet fighters. The jet fighter can drop the drone in some operational areas. And those drones can destroy high-value targets. The fact is that. A drone can send. The location of the targets. To the headquarters. Or it can attack itself. 

A drone is a tool that changes everything. A drone can lurk near the headquarters and runways. The drone can attack the targets. When it sees the jet fighter. The drone that can be dropped from satellites can be used for assassination operations. The drone . That dropped from the orbital trajectory can be used against the high-value targets. The problem with the drones is that. Maybe they cannot destroy large targets. But they can destroy things like radar antennas and network stations. So, the drone swarms can prepare targets by destroying radars and communication antennas. A drone can also send mission-critical data to its owners. The drone that uses Cesium batteries can have virtually unlimited operational time. 

In normal cases, high supersonic speed. Along with high-altitude. Protects jet fighters against drones. But if a jet fighter is ambushed on the runway. That fighter is helpless. Drones are easy targets. But that requires. The defense system is switched on. The problem is that. Those drones can travel in containers on civil vehicles. And in some scenarios, the drivers will not even know. That they carry drones. When the container is within the strike distance of the target. Its roof opens. And drones are released. That means the defender might have a very short time to react to drones. The thing is that. 

Drones are a new threat. The problem is that any drone can be modified into a weapon. So, also criminal organisations and even street gangs can equip hobby drones. Into explosive carriers. Or kamikaze drones. And that makes them very dangerous. Even if we think that civil drones have no similar protection as military systems. We must realize that those drone defense systems must be turned on. That they are effective. 

(https://unherd.com/2026/05/is-this-the-end-of-the-fighter-jet/)

https://en.wikipedia.org/wiki/Sting_(drone)

https://medium.com/@batrobin/can-drones-end-the-existence-of-the-jet-fighter-51e250560d84

Robots as space researchers.

“Illustration of robotic dogs exploring lunar lava tubes.” (Rude Baguette)

When we think about manned Mars flight. The first creatures that travel to the Red planet can be robots. The human-shaped robots. And robot dogs can research the red planet. And in the visions, the AI-controlled robots can even make the base. And when humans arrive, they just take keys and step in. The AI-controlled robots can research the solar system without risking lives. Robot researchers solve the problem of long space journeys. And if we think about the possibility of traveling to planets like Jupiter and Saturn, we could make that journey virtually. The VR and BCI systems allow communication with robots. 

A person would be physically on the Moon or Mars. There is a small delay in the data signal traveling from outer planets. But the AI-based interactive interfaces can solve the control problem. So, maybe we cannot physically travel to the outer planets. Or even solar systems at the speed of light. But we can send robots to those places. And then receive information that those systems send. This means that we can make virtual journeys anywhere we want. And that opens new visions for space research. It also opens new views to things like UAPs. 

Voyager probe. 

Maybe aliens will ever visit our solar system. But they can send the probes to other stars. And maybe in the future. We will send robot crafts to research outer planets, and even to Alpha Centauri.  AI-controlled probes can carry humanoid robots. In those cases, the journeys can last hundreds of years. In the cases that we know from our history. The first things that we sent to the Moon. And to solar systems were probes. 

The first probes that humans sent to the Moon were immersion probes. Researchers who sent the first Luna and Ranger probes to the Moon. Let those probes. Impact with the Moon. The Soviet Luna 9 was the first soft lander on the Moon in 1966. 

Ranger 7 probe. 

Researchers who sent those probes, like Voyagers 1 and 2, didn’t expect to get them back. In the same way, in the 1970’s, futurologists created a plan to send an unmanned space probe to the Alpha Centauri system. The “Project Daedalus”. It was the hypothetical version of the interstellar probe. The interstellar Voyager probe that travels to Alpha Centauri. And I presume that the first thing. That travels to the outer solar system. 

For research, the gas giants, Uranus and Neptune, will be. The AI-controlled probe. The miniature version of Daedalus can make that mission. The theoretical Daedalus was the flyby probe that would not slow its speed near the targeted solar system. It would  send the subprobes to those solar systems. In the same way, “Mini Daedalus” can make a flyby mission. When the nuclear-powered probe overtakes the planet. It can send the immersion probe that orbits and lands in a gas giant’s atmosphere. 

Daedalus spacecraft concept. (Wikipedia, Project Daedalus)

China wants to send robot dogs to research lava tubes on the moon. This kind of research is one of the things that pave the way for bases on the Moon and Mars. Without complete knowledge of the conditions of the operational areas. It is hard to make safe bases. There is a possibility that China plans to create. A moonbase in lava tubes. But the fact is this. Those robot dogs can also operate in caves on Earth. 

They can also operate. In the sanew system, below cities. The robot dog can go anywhere. And there is a possibility. That. Those systems. can even fly. In that case, the robot dogs have the quadcopter system in their feet. The retractable propellers can be in those feet. And when the robot dog wants to fly. It just spreads its legs and uncovers its propellers. 

Then those robots can fly to the roofs of the buildings. It could also use that ability for underwater operations. The robot dog can serve rescue crews and the military, and it can have intelligence applications. The use of robots helps to save lives. And the biomimicking robots can operate in areas that are dangerous to researchers. Maybe we will see these kinds of robot dogs on the surface of other planets. 

https://www.rudebaguette.com/en/2025/10/i-didnt-expect-them-to-move-like-that-chinas-robotic-dogs-are-now-training-to-explore-the-moons-hidden-lava-tubes-and-find-sites-for-future-bases/

https://science.nasa.gov/mission/ranger-7/

https://en.wikipedia.org/wiki/Project_Daedalus

https://en.wikipedia.org/wiki/Luna_9

https://en.wikipedia.org/wiki/Luna_programme

https://en.wikipedia.org/wiki/Ranger_program

https://en.wikipedia.org/wiki/Voyager_1

https://en.wikipedia.org/wiki/Voyager_2

https://en.wikipedia.org/wiki/Voyager_program

https://medium.com/@batrobin/robots-as-space-researchers-b12e9a3c35bb

The AI passed Turing test.

The AI passed the Turing test. And that means: AI becomes more human than human. The Turing test measures today can AI generate answers that are impossible. To separate from humans. The Turing test, originally called the imitation game by Alan Turing in 1949, is a test of a machine's ability to exhibit intelligent behaviour equivalent to that of a human. In the test, a human evaluator judges a text transcript of a natural-language conversation between a human and a machine. The evaluator tries to identify the machine, and the machine passes. If the evaluator cannot reliably. “ (Wikipedia, Turing test). 

“To tell them apart. The results would not depend on the machine's ability to answer questions correctly. Only on how closely its answers resembled. Those of a human. Since the Turing test is a test of indistinguishability in performance capacity, the verbal version generalizes naturally to all of human performance capacity. Verbal. As well as nonverbal (robotic). (Wikipedia, Turing test). 

The ability to create AI that products cannot be separated from humans means new challenges for people. Whose mission is to control things like the thesis. The ability to create. This kind of AI that imitates humans perfectly makes it possible to use them to play humans. The AI agent that operates with workers can imitate real people. And that makes them very good tools for observations. The director can sit at the laptop and control AI agents that are virtual characters on the screen. Maybe in the future, the directors and team leaders can use the AI agents to follow the workers. 

Those AI agents can calculate how many times an hour the person takes breaks. Same way. Like in encoding work. The operator can operate virtual members of the workgroups. In the same way. The coder can operate virtual encoders. The director can operate virtual characters. The virtual character is actually an algorithm. That can act like a human. The virtual character can drop things and write notes. And many other things. In a virtual room that does not even exist in the real world. In that world, the office, the people whom you see. And things that you hear can be only virtual characters. Those characters can seem to make computer code in a nice office. But that office and the people who work there can be only algorithms. 

(Live Science) 

"The "standard interpretation" of the Turing test, in which player C, the interrogator, is given the task of trying to determine which player – A or B – is a computer and which is a human. The interrogator is limited to using the responses to written questions to make the determination." (Wikipedia, Turing Test)

The operators can use virtual characters to teach or train the AI. In that model, the AI creates the avatar. The virtual character, or digital twin. If we want to make a digital twin of certain people. That thing requires lots of data. But if we want to make and train a virtual character. That communicates with us. Only in the workplace. That thing requires less information. The virtual character who communicates with people. Only about work doesn’t require. A lot of training. And if the virtual character sees that somebody says something, that is outside the work. The order can be. “Back to topics. Time is money”. That allows. Controllers to avoid. The discussions that can uncover the virtual character. 

The AI agent can be a tool. That can collect information from the people. The AI agent can control tools like screen capture programs. The AI agent. With a very good dictionary. And very good articulation can be a good tool for social hacking. The virtual assistant. It can translate English into any language in the world. The virtual character. The algorithm can render. The performance and speech fit the desired character. 

That makes it possible to play any public person in the world. The AI agent must only see how the character speaks and acts. So, that kind of character can help to play even the presidents on screens. In those cases, the person who uses that kind of virtual actor can even use presidential authorities. And in the worst case, those virtual characters can cheat the micro support to create passwords with the same privileges. That president uses. The virtual character could pass the image recognition system. And that is the next-generation tool for identity thieves. 

Even if I just wrote that the digital twin. Made. To represent. A certain human. Or even a family member, requires lots of private data. But if the AI gets that data from somewhere. It is possible to create a virtual character. That can play. Even a family member. When we think about the work that this kind of thing requires. 

We must remember that every family has things. They talk with other family members. But if researchers. Or intelligence officers want to create. The digital twin of a public person. There is a lot of public data. About those kinds of persons. It’s possible that the agents got passwords for the Iranian digital infrastructure. Just before the U.S and Israel attacked Iran. Used some kind of digital actors. Like the Iranian leader’s digital twin as a social hacking tool. It’s possible that the agents. Used even Ali Khamenei’s digital twin to ask for passwords. Into that digital infrastructure. 

https://neurosciencenews.com/ai-passes-turing-test-30733/

https://www.psychologytoday.com/us/blog/the-future-brain/202605/ai-officially-passes-the-turing-test-landmark-study-shows

https://www.livescience.com/technology/artificial-intelligence/open-ai-gpt-4-5-is-the-first-ai-model-to-pass-an-authentic-turing-test-scientists-say

https://en.wikipedia.org/wiki/Turing_test

Alzheimer’s mitochondrial theory.

“Researchers have developed new chemical tools for probing TAOK proteins, a little-studied family linked to Alzheimer’s disease and other neurological conditions. Credit: Shutterstock” (ScitechDaily, Researchers have developed new chemical tools for probing TAOK proteins, a little-studied family linked to Alzheimer’s disease and other neurological conditions. Credit: Shutterstock)

Could Alzheimer’s be some kind of autoimmune disease? 

The key role in Alzheimer’s.It is the plaque in the brain. There is a theory that when the plague starts to accumulate. The immune cells that try to remove that plaque accidentally damage the ion pumps. Of the neurons. In that case, the immune system withdraws. Because it gets a signal that it accidentally destroyed myelin. In that model, the chemical mark in the plague causes a situation. 

That immune system thinks that it's harmless. Or if the immune cells destroy the plague. They release the antibodies. That goes into the neurons. And those antibodies can damage neurons or their mitochondria. In that theory, Alzheimer’s is some kind of autoimmune disease. A little bit like rheumatism. There is a possibility. That immune cells start accidentally destroying myelin in the brain. 

But then to the theory. That. Alzheimer’s is a mitochondrial disease. 

Where does that malfunction begin? Does it begin in the cell membrane? Or does it begin in the mitochondrial membrane? And is that mitochondrial disease the reason, or a result of Alzheimer’s? The changes in PH. Causes damage to the DNA. But do those damages play a critical role in the beginning of the disease? Or do they just accelerate the process? 

If we think that Alzheimer’s is a metabolic disease that first decreases. The mitochondria’s ability to work. And finally blocks their ability to form energy for neurons. Which will block first? Ion pumps in the mitochondria’s membrane or the cell membrane? When the damage to the mitochondria is large enough. That causes the neuron’s death. 

There is a theory that maybe Alzheimer's is some kind of mitochondrial disease. There is a possibility that the disease starts in the mitochondrial ion pumps. In that case. The accumulation. Some of the metabolic products. In the neurons.Cause changes in the PH. Plaque in synapses prevents the neurotransmitter from traveling between neurons. That causes a situation. Where the temperature rises. And metabolic products accumulate. That causes a problem, especially in mitochondrial metabolism. 

When mitochondria create energy. It requires sugars in that operation. It also uses acids. Like pyruvic acid in that process. Mitochondria release. It's nutrient products. Into the cells. There, the cells carry them out of the cell through ion pumps. There are ion pumps on the membrane of the mitochondria. Those ion pumps handle mitochondrial metabolism. When the metabolic products start to accumulate. And mitochondria operate all the time. With full power. That causes damage in the cells. Ion pumps in the mitochondria’s membrane or the cell membrane? When the damage to the mitochondria is large enough. That causes the neuron’s death. 

“Scientists from Mount Sinai have provided fresh insights into the involvement of DNA methylation in Alzheimer’s disease (AD). According to their study, DNA methylation.  Has a significant influence on the co-expression networks of genes and proteins. Related to AD. Consequently, this could potentially uncover novel neuropathological processes and molecular mechanisms. Ultimately resulting. In the development of innovative therapeutic interventions for Alzheimer’s disease. “(ScitechDaily, DNA Methylation Found to Play a Critical Role in Alzheimer’s Disease, Say Mount Sinai Researchers)

In this model, the metabolic products start to accumulate in brain tissue. When the brain cannot remove those products. In Alzheimer’s. The plaque starts to accumulate in axons. The axons cannot send messages through that plaque, which blocks the neurotransmitters. This causes a situation where neurons must. Start to act. With a stronger volume. When neurons must always use more power to get the message to travel through those axons and synapses. That means they must use more power. Their mitochondria start to work. With a higher force. This energy production causes heat. And that disturbs the proteins and enzymes. In that process, neurons require more nutrients. 

That means that those nutrients are away from the cells. Whose mission is to clean the metabolic products. When the temperature in the cells. It is high all the time. That can cause damage. In the mitochondria’s structure. The plague along with. Too high a temperature environment. Causes problems with the PH in the neuron. That affects the ion pumps. When the ion pump can no longer handle ions. The cell is without nutrients. Or when the PH turns too low. The mitochondria will collapse. In mitochondrial diseases, mitochondria cannot handle the nutrients that they need. In those cases, the mitochondrial ion pumps will be jammed. And that means mitochondria will not get enough nutrients. That causes. The death of the cell. 

https://scitechdaily.com/dna-methylation-found-to-play-a-critical-role-in-alzheimers-disease-say-mount-sinai-researchers/

https://scitechdaily.com/scientists-uncover-a-hidden-alzheimers-target-and-create-the-first-tool-to-control-it/

https://www.sciencedirect.com/science/article/pii/S1568163725000595