Skip to main content

Why shooting a grenade to orbiter is so hard?

Why shooting a grenade to orbiter is so hard?





The fictional "Columbiad" could shoot a shell to the moon. The image is from Jules Verne's fictional novel "From the Earth to the Moon". 


Can movement continue forever?

If we are thinking about things that are larger than some quantum-size objects: the answer is no. And the reason for that thing is friction. When a thing like a grenade travels through the air, the ammunition transfers the kinetic energy to the air molecules. And that thing sucks the energy that is loaded into the grenade when it is left from the cannon. 

Another thing that is slowing the grenade or ammunition in the air is the vacuum behind the ammunition. And that thing would pull the projectile backward. So shooting the grenade to the orbiter is a very difficult thing.  Because of those slowing effects, the shell requires an extremely high punch that will break everything inside the shell. 

There is the possibility to make the grenade or other ammunition that flies farther than other grenades simply by denying the form of the vacuum behind the shell. That thing can be made, by making the channel through the shell. 

And that thing would remove the vacuum. There must be some kind of plate behind the shell that will drop away when the shell is leaving the pipe of the cannon. And the air that flows through the grenade denies that the vacuum cannot form.

What means "mirror-friction"? That means the energy travels from the environment to the object. Normally, energy travels out from the object to the air. But if the object has the minimum energy level, that means the energy would travel from the environment to the object. And the movement continues until the energy levels in the object are the same as its environment. 

So what is friction? Friction is the energy transfer from the higher energetic object to the lower energetic area. So there is the possibility that the zero-point energy will make the grenade or ammunition travel even around the Earth. Or maybe that thing would not work on Earth but if the object's energy level is lower than its environment the energy would start to travel from the environment to the shell. 

That object would travel through the atmosphere a very long way. The idea of the ammunition that can travel around the world is basing one simple thing. If that object has a minimum energy level the energy can travel to the object. So that thing is the reflecting the friction. But is that thing possible to make in real life? The thing is that the movement continues until the energy levels are stable. 


http://www.technovelgy.com/ct/content.asp?Bnum=429


https://thoughtsaboutsuperpositions.blogspot.com/

Labels:

Comments

Post a Comment

Popular posts from this blog

Chinese innovations and space lasers are interesting combinations.

Above: "Tiangong is China's operational space station located in low Earth orbit. (Image credit: Alejomiranda via Getty Images)" (Scpace.com, China's space station, Tiangong: A complete guide) Chinese are close to making nuclear-powered spacecraft.  Almost every day, we can read about Chinese technical advances. So are, the Chinese more innovative than Western people? Or is there some kind of difference in culture and morale between Western and Chinese societies? The Chinese superiority in hypersonic technology is one of the things that tells something about the Chinese way of making things.  In China, the mission means. And the only thing that means is mission. That means that things like budgets and safety orders are far different from Western standards. If some project serves the Chinese communist party and PLA (People's Liberation Army) that guarantees unlimited resources for those projects. Chinese authorities must not care about the public opinion.  If we th
Post a Comment
Read more

Iron Dome is one of the most effective air defense systems.

The Iron Dome is a missile defense system whose missiles operate with highly sophisticated and effective artificial intelligence. The power of this missile defense base is in selective fire. The system calculates the incoming missile's trajectory. And it shoots only missiles that will hit the inhabited area. The system saves missiles and focuses defense on areas that mean something. The system shares the incoming missiles in, maybe two groups. Another is harmless and another is harmful.  Things like killer drones are also problematic because their trajectories are harder to calculate than ballistic missiles. The thing that makes drones dangerous is that they can make masks for ballistic missiles. And even if those drones are slow, all of them must be shot down.  The thing is that the cooperation between drone swarms and ballistic missiles is the next danger in conflict areas. In the film, you can see how drones make light images of the skies. The killer drones can also carry LED li
Post a Comment
Read more

The innovative shield that protects OSIRIS-APEX can also protect the new hypersonic aircraft.

"NASA’s OSIRIS-APEX spacecraft successfully completed its closest solar pass, protected by innovative engineering solutions and showing improvements in onboard instruments. Credit: NASA’s Goddard Space Flight Center/CI Lab" (ScitechDaily, Innovative Engineering Shields NASA’s OSIRIS-APEX During Close Encounter With the Sun) The OSIRIS-APEX probe travels close to the sun. The mission plan is to research the sun. And especially find things that can warn about solar storms. Solar storms are things that can danger satellites at the Earth orbiter. And the purpose of OSIRIS-APEX is to find the method of how to predict those solar storms. Another thing is that the OSIRIS-APEX tests the systems and materials that protect this probe against heat and plasma impacts.  The same technology. The researchers created for OSIRIS-APEX can used in the materials and structures. That protects satellites against nuclear explosions. That means this kind of system delivers information on how to prot
Post a Comment
Read more