Infinite Energy Research
Method a)
Energy flow is constant in all phases of a current except at the return point when it is dissipated back into the electric field.
How do I keep the flow of electrons constant, without dissipating them back into the field?
Another solution would be to have a constant availability of electrons (perhaps from the field?)
Maybe I should consider adding magnets to either line the inside of the battery and prevent it from dissipating out, or set them in the N and S axis in order to maybe get these electrons to rotate and make their way back into the battery once they're outside the circuit, they'd make their way back in...
When we look at the solar system from a grand magnitude we see that the similarities between an atom and a solar system are astonishing. It's like the Sun is the nucleus and the planets are electrons on it's outer shell...
There are some differences for an example to us all electrons are the same, but if we look at the planets, some are bigger than others and the fact that planets have other elements inside of them. That's besides the point, I don't mean to say that they're identical and that's what's so astonishing about it, but rather that the structure is similar.
Each of the planets has a magnetic field of it's own and they're constantly rotating around the sun in what seems to be an infinite dance of the cosmos.
Electrons and atoms behave in a very similar way, they're constantly rotating around the nucleus of the atom.
The very thing that creates electric current is present in every atom. What generates electricity is simply how they flow within a current. That depends entirely on the type of material you're using. Have you ever wondered why even though elements like rubber or plastic have electrons in their atoms and yet create no current? That's because simply having the electrons doesnt generate this property. It's the way that they move that creates this current.
Method b)
Micronuclear fusion:
The size of the sun compared to the size of the earth is on and around the same scale as a soccer ball to a bead. Scaling it down even further, this micronuclear fusion would make fusion happen but at the atomic level. Although one star of that size wouldn't be enough to heat much, the goal is to manufacture many of them and serialize them in a sort of stellar ecosystem within a crystal. Some options considered and silicone is a good choice for It's electroconductive compatibilities. Similar to a way that a transistor would calculate a 1 or 0 in a processor and there are millions of transistors that compose an i7 for an example; these micro stars would instead of calculate a 1 or 0, generate heat and electricity. The next step would be to harness their electricity.
Method c)
The same electromagnetic force that holds atoms together to form a molecule replicated in a larger scale could result in a stable, perpetual connection. After all, atoms linked together to form metals for an example don't just fall apart, so it means that their magnetic bond is strong.
It doesnt have to be "infinite" as long as it's very long lasting, clean and efficient energy that's portable and easily repaired.
Method D: Odin's Taurus
This coiled taurus creates a loop in the magnetic field that allows for energy flow to be constant in all directions. Although this is true harnessing methods are still being constructed.
Method E:
Perpetual Motion Electromagnetic Harnesser
This method spins a flat cylindrical base with magnets on top that spin when in the presence of an opposite polarity magnetic field of a battery. Coiled pipes held in place above this structure harness voltage as the cylindrical base spins the many magnets under the coiled pipes.
Method F:
Nano Perpetual Motion Electromagnetic Battery.
The same stryctyre as E, constructed at the nano levels, many of these small structures are constructed inside of a small battery that never runs out.
//** under investigation
Method )
Capacitance Loop:
(This has not been experimented yet)
Suppose we drill holes in between the two plates of the capacitor that take the negatively charged particles to the other metal plate instead of acc*mulating.
As the particles start to acc*mulate, instead of exerting a repeling force in the initial direction, they would continue on to the other side of the other capacitor plate which would contain more positvely charged particles and need more negatively charged particles. The flow would continue constantly allowing the electrons with a single initial propulsional charge to produce a current perpetually (maybe)
In order for this to work we have to switch the order of charge and discharge.
It's in discharge that the electrical work is produced. Although it technically has been used, reinserting that into the loop might not work.
But there's only one way to find out and that is by experimenting.
What if we connect an inductor, and provide a path for its disconnect from a resistor that instead of damaging the circuit, charged the battery that charged the capacitor? **//