Self Assembling nanites part one.

Top down: grind down a material into its wanted shape but creates waste. 

Bottom up: build slowly the intricate parts. 

A solid method is to create the nanites in a combined fashion. 

You’re building cubli’s. 

Use: pyrolysis carbon casing to be safe incase of failure inside the body and allow available attachments to drugs or operating tools. Cancerous bone is weak. (I believe so you may not need carbide tips to get through if going slowly enough). Sewing systems can join molecularly within the body at attachment points similar to spider web sacks joining together in series and rotated out with a twist to the nearest neighbor to continue the feed until the suture is done. 

Top down to manufacture housing and empty inside shell. A series of holes is drilled at each cross corner so as to not be totally flat, where you’ll later bond conductive material to electro magnetize those sides and corners using dip pen lithography.  

Waste is removed continuously and recycled into pure material once atomic slag is removed if any. 

Bottom-up using recycled innards plus additional materials to build control mechanics. 

Molecular beam epitaxy to lay films of atoms inside the inner workings in specific orders or “shells” until all moving and inert parts are manufactured and in place as warranted. Will have to ask the creators or a computer optimization algorithm to find the best method. Battery cells will have to be dropped into place and connected with dip pen lithography again. 

Build the system on a roll to roll “conveyer system” and you end up with the finished product at the end. 

Test outside body on cancerous white blood cells with users artificial cytokines and antibodies. Or coronaviruses.  Force them to encircle the viruses as artificial kill cells and use the batteries to heat the systems conductive materials with partial RBCs cellular make up on the drug attachment points that the corona wants to bond to and then heat to the viruses destruction point and the virus is eradicated from within with simple nanites. Remove dirty nanites from system. Clean. Repeat. 

Using cubli’s To deliver drugs against or with blood flow at any size including to fight bone marrow and lymphoma cancers. The first en mass medical nanites.

Here’s the basic design of them. I don’t know why this wasn’t done straight away.

Here’s the basic design. Three rotating sides against an inner torque mechanism to get it to jump. Or balance on one side. Or move in a controlled fall. If you place those inside an exterior set of shells including a medication you can do a myriad of healing things with them, while also controlling a series of them in succession or at once to sew from the inside out, deliver medicines as far as into the bone inside an implant that may or may not need to be removed later to treat bone cancer. Treat lymphomas by surrounding the white blood cells at their choke points or found areas of travel. Much less painful than chemo as you could irradiate the bot, have them hit their points of impact and then head to a port and attach, magnetically, through cancerous tissue collection, like collecting in a net—while flushing the user with fresh healthy white blood cells from their own stem cells so they don’t become continuously cancerous. 

These could easily be the first series of nanites used to treat all sorts of sicknesses. 

Hope you have a wonderful day/night.
-J.

Blue and red are poles of magnets also need corner attachments so that they can be “twisted or twisting” as they move within the body. Green would be the drugs/ tools to work within the body.

It’s about that simple. I can draw this up in solid works if you like.

Top down: grind down a material into its wanted shape but creates waste. 

Bottom up: build slowly the intricate parts. 

A solid method is to create the nanites in a combined fashion. 

You’re building cubli’s. 

Use: pyrolysis carbon casing to be safe incase of failure inside the body and allow available attachments to drugs or operating tools. Cancerous bone is weak. (I believe so you may not need carbide tips to get through if going slowly enough). Sewing systems can join molecularly within the body at attachment points similar to spider web sacks joining together in series and rotated out with a twist to the nearest neighbor to continue the feed until the suture is done. 

Top down to manufacture housing and empty inside shell. A series of holes is drilled at each cross corner so as to not be totally flat, where you’ll later bond conductive material to electro magnetize those sides and corners using dip pen lithography.  

Waste is removed continuously and recycled into pure material once atomic slag is removed if any. 

Bottom-up using recycled innards plus additional materials to build control mechanics. 

Molecular beam epitaxy to lay films of atoms inside the inner workings in specific orders or “shells” until all moving and inert parts are manufactured and in place as warranted. Will have to ask the creators or a computer optimization algorithm to find the best method. Battery cells will have to be dropped into place and connected with dip pen lithography again. 

Build the system on a roll to roll “conveyer system” and you end up with the finished product at the end. 

Test outside body on cancerous white blood cells with users artificial cytokines and antibodies. Or coronaviruses.  Force them to encircle the viruses as artificial kill cells and use the batteries to heat the systems conductive materials with partial RBCs cellular make up on the drug attachment points that the corona wants to bond to and then heat to the viruses destruction point and the virus is eradicated from within with simple nanites. Remove dirty nanites from system. Clean. Repeat. 

Thanks for your time,
-J.

There seems to be a Boson (negatively charged) missing from the roster.

IMG_0046.jpeg

Mass/Charge/Spin:

Use Helium-3 

Lithium Titanate -> (Lithium pebble breeders)

Tritium (Hydrogen3)-> Helium3 

This is a Boson (Hopefully not muon) build. 
Seems to be a negative Boson missing. 

Here’s an idea of what the build may be if that’s ever not found: 
You have your Z and W bosons, both with Mass and spin. You use the superfluidity of Helium3 to force the heavy bosons, like that of a bombarding Higgs Boson in succession through a series of Z alternating W bosons so that they collide and are forced into differing areas as the Higgs pushes against them “upwards” in the superfluid. 

As they collide they get excited and release energy towards the top of the system as heat which can be cycled off as electricity as well as radioactivity. Changing the near zero temp at the bottom to a higher range, forcing the cooler superfluid to compress below the heating superfluid before it sublimates into another form where it will take a change state and become some form of energy carrier. Hopefully by splitting (or combining the overall energy of) a Z and a W boson. 

Those that don’t release energy or bond to another atom, knowing that the boson is a force carrier and “holds” matter in place while a superfluid does the exact opposite—you should get an artificial friction between the two creating a new type of material be it magnetic flow type, Eddie currents, or attraction/repulsion between the two as the electrons are expanded and the pulling forces between the two become much greater. 

Once a negative spin Boson is found then it’s simplest to set up each of these parts as a battery as you would and bombard them with Higgs bosons as the electrolyte as they are the propulsion function within the superfluid, while the W boson would be your anode while you use the cathode boson to exit the energy out of the system in it’s multiple available forms. 

Vector Analysis of a moving object to make it appear smaller than it is, even when stationary.

I’m using boats as a reference here because this is what I dreamt of about ten minutes ago–playing with my brother. Some type of military boat game.

Every country has radar of some type, and all you need to do it make your self slip through it is to move within the interference zones of each type at the vector intervals ranges between their minimum and maximum based on gravity and motion of travel to not be seen as well. They already design boats to have a lower footprint. I’m sure that goes for every unit type of the old war style.

So how do you disrupt your whole entire ship/planes/cars units footprint? By making it resonate continuously with a dedicated device at its appropriate place(s).

Let me show you a few badly drawn diagrams to show you what I mean:

The problem is now that we’ve got satellites pumping them down as well. So you’ve got to make 3-d adaptive versions of this. They don’t look dissimilar to:

So to solve that issue you have an inner ring and an outer ring of these creating these sin (I keep seeing sin but it could be another function. It’s just the simplest version to get the point across that I could think of) functions in 3d in all directions cycling against what is found by your own technology and it should vastly shrink your units footprint. The outer casing may look similar to a geometric golf ball. But it may be possible to utilize these functions without much of a casing at all.

Just an idea.
Have a good day/night.
-J.

An idea for detonation engines using a spherical dynamo:

Instead of using a circular wave format with multiple inlets you use a polyhedral sphere where there are insulated leads into through the outer core and in through and back out again of the inner core to their firing location so that the gasses enter into the system and bend around creating heat pressure at the bends and then firing up and out of the tubes at an angle to spin around in any sync format needed times the number of opens active at the time (the others being flush and plugged if needed) and move until they are forced downwards by gravity and released in minute or as large as needed amounts causing propulsion as needed to cause flight. Like how an older typewriters alphanumeric ball would spin as it is jostled around by it’s handling arms, but inverted—so from within and stabilized. 

Since there are bends in the metal they will get hotter than the rest of the tubing, and can be used to control the pressure from the inner cores expansion towards the outer cores insulated tubing while you are making a series of valvular conduit shapes to precisely control the materials through the system until their release as they relate to gravity and loss of material.  

It would also let you you release from any inlet wanted to allow any direction so that if you redesigned the flaps of the cone to be moveable you could guide the launched device with better precision if other guiding devices were in place as well as less loss of fuel, the trade off being it would be a more complicated design. Green being directional thrust, yellow being wiring, black being insulator, red being outer casing, purple being inner casing. The closer to a sphere you get the polyhedral the better off you’ll be because of the amount of valvular units would level out the system faster/more smoothly once up and running, and the directional thrust would also be useful.