sirtheory

Let me see if I understand this correctly.

 

You have a vacuum tank, a computer and a scanner. You want to somehow use the scanner to find the entangled states, then alter the vacuum conditions using that data by altering the entangled states.

 

This description accurate?

your on the right track. hold on let me elaborate

Learn from yesterday, live for today, hope for tomorrow.

The important thing is not to stop questioning.

-AE

It was moved to speculation as we're still trying to make sense of what your doing or proposing. Of which I'm still not having any luck.

wow ok, i ask for it to be moved to a more appropriate section , and its the trash. and block me of making threads.

but thank you on your view, one more reason my fire to save this earth flames passionately

theres no such thing, as you " shoot " it will create your " vacuum " at the end barrel. or make a black hole

-.- what are you not parse about

lol sorry that came right after i sent that hahaha! well yea

i am creating a software that tells the computer how to scan a vacuum tank and with the code from the "code

"computer to find entangled electrons and change atoms into what is desired; well trying atleast

Well thank you for that, I am in terms with history with what im creating to better the life of humanity in all love and firm connectivity to my community

its cause i have a scanner, and im trying an exp

3d with wave vector k and ω has a wave function

Particle in a box

A particle is restricted to a 1D region between x = 0 and x = L; its wave function is:

To normalize the wave function we need to find the value of the arbitrary constant A; solved from

its because i want the scanner to push the electrons making the desired atom im working on these experiments :l

i believe i might be in the wrong section too

then go (input : acc) s'
else return (input : acc)
Finished n t -> put t >> return (T.take n input : acc)
{-# INLINE scan #-}

by using the m_a pull in the electrons to acquire the desired electrons to the entangled line being formed to the atom.

Transforming the Schwinger–Tomonaga equation into the language of the density matrix

or to be interactive

using the interactive photons to change the element composition of the field.

m_a as the weight liner

ok give me a second to explain. ive thought about this as a child , creating notes and such.

So by looking at an atom and see its entanglement and studying will dismantle the entanglement.

so see the entanglement, and use that entanglement as a line, with the starting atom as the anchor

A---------------------------------------------------------------------A^2

^Oxygen atom ^entangled line ^ N/A Atom

ofc, it will be a supercomputer with mathematics such as

but tweaked where we can use the line as a dense 1d blackhole that pulls the endpoint atom into a vacuum

we use the information aspect of the atom to transfer into the vacuum

the pools are the vacuums for the targeted areas

So by seeing the entanglement could we program a computer to pull the atom into a pool from where it was ? I understand that studying the entanglement will disentangle if. Like a spinning coin, why see if it will land on heads or tails; instead of just pooling it in and organizing it as such