In order to answer this question, we’ll need to examine how energy works in the micro- and macro-microscopic regions where electricity is most strongly involved. This will allow us to explain why levitation occurs in all the examples that we’ve seen so far: the levitator and the levitating ship.
Where Do Electrical Charge Exists?
Electrical charge (or energy) arises from two sources: mechanical and chemical. Both mechanical and chemical processes work at the microscopic or sub-micric level. There is not a “ground” in the microscopic world, in which the action of one molecule of an electrical system (or one charge of an electrical medium) is balanced by another. A simple example is that of a capacitor, where there is both a “ground” (an electrical ground) and an “insulator” (a capacitor whose electrons are attracted by a very high voltage of some particular type), which also happens to be the one that is being charged. This electrical voltage is supplied by another capacitor, who is not being charged. There are two electrical currents flowing through each capacitor, and the current coming from it will be equal and opposite both in magnitude and direction. This is how electrons move: a current of one positive electric charge flows through a capacitor of one negative charge, and a similar current has two opposite charges flowing through a capacitor of the same charge. The electric current (called a motor or current) which is being supplied to another component (such as a capacitor) (i.e. a current which is proportional to its charge and which will flow through any of its parts) has a definite relationship to the charge of that component: if there are two parts whose charge is 1/2 of that of the other, the motor will be producing about one-quarter as much speed per unit of energy as if there are two parts of equal charge. Thus, as the charge of a capacitor is increased in magnitude (which is proportional to the charge of the other elements), a greater motor output is needed to produce the same amount of energy as in the first case. If the charge of the other component is not equal to 1/2 of the charge of the first, the motor will actually produce less power than if the two components are of equal charge (i.e. the motor will be producing about one-quarter and two-thirds of what is required to produce the same output).
Now we can ask whether such a relationship exists at the macroscopic level as well.
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