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Circuitry of a radiator
We all know that when a generator produces alternating electricity,
it produces it with a rotational movement only. At no time does the generater move backwards and forwards. When describing the value of the current we can see that the current has a constant value as the rotor of the generator revolves. The current appears to be going up and down in value only because of the vantage point taken. If we view the generator from the side we can see that the vector angle of the current value is a segment of a revolution . Thus it can be seen that what appears to be a change in magnitude of the current, is the effect, of a segment of the generators revolution. The line that this generator connects to is a diamagnetic material where the energy in the line is a direct reflection of the position of rotation of the generator's rotor. This diamagnetic material is recognised by a skin on its surface as in a patenna. which is the dielectric(pattina in antique circles) between the center of the material and the outside surface and thus represents a continuous capacitive connection which leads back to the source . There is a closed DC circuit at any moment in time. The outside of a diamagnetic material is where the current is actually active and where the amplitude changes according to the action of the capacitance up to that point. By rotating the amplitude changes it represents the rotative action of the current at that point which by its measure of rotation represents the fraction applicable to a revolution other wise known as a period with reference to the frequency of rotation. We can now see the circuit as a reflection of the current amplitude and its phase with respect to the segment of a period that is depicted at that point only which is not physically connected to the vectors portrayed at any other point in the circuit. Thus when considering a single revolution only of a generator we are seeing at all times a continual DC current generation where the apparent amplitude of the current only reflects a constant current and the portion of the reolution or period that can be considered at that point. Thus when it appears to have maximum amplitude it is only a representation of the completion of half a revolution determined by the direction of the apparent current vector. This electrical circuit is generally known as a 'tank circuit' which does NOT have any TRAVELLING waves OR any waves that BOUNCE since there is no discontinuity in the circuit at any point in time. One can clearly see the true action of the current by using a crt that reflects the phase changes applied to the constant current values generally known as a spectrum analyser where what is seen as the angular position of a true dipole that is part of the molecular structure of the material as a whole. and where resonance is depicted by the angle of the internal dipole at the circuits source. If I have made errors in spelling I apologise. Best regards Art Unwin .....KB9MZ.....xg(uk) |
#2
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Circuitry of a radiator
art wrote:
We all know that when a generator produces alternating electricity, it produces it with a rotational movement only. At no time does the generater move backwards and forwards. Hate to rain on the parade, but a fully function generator can be built using exclusivley forward and backward motion. No rotation needed. The simplest commercial application of this is the "Faraday Flashlight, which charges a supercapacitor by strictly linear back and forth movement of it's generator. Even a loudspeaker is a linear generator. see: http://en.wikipedia.org/wiki/Faraday_Flashlight - 73 d eMike N3LI - |
#3
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Circuitry of a radiator
On 15 Jan, 09:54, Michael Coslo wrote:
art wrote: We all know that when a generator produces alternating electricity, it produces it with a rotational movement only. At no time does the generater move backwards and forwards. Hate to rain on the parade, but a fully function generator can be built using exclusivley forward and backward motion. No rotation needed. * * * * The simplest commercial application of this is the "Faraday Flashlight, which charges a supercapacitor *by strictly linear back and forth movement of it's generator. Even a loudspeaker is a linear generator. see: http://en.wikipedia.org/wiki/Faraday_Flashlight * * * * *- 73 d eMike N3LI - The bottom line is that the angular position of the inherrent dipole at any point reflects the amount of kinetic energy available in a magnetic fiels at that particular point. Whereas, at all points the angular position of the multitude of vectors is not the same. This being contrary to DC flow where the inherrent dipoles are aligned in unison with two instead of three degrees of freedom as with an alternating current. It is this subtle difference which is causing such confusion on this newsgroup which can only be visuallised by the newsgroup when all are assumed to have only two degrees of freedom. Good thing is that even with what you are referring to you have identified the three degrees of movement which others cannot get a handle on with respect to alternating current. Best regards Art Unwin KB9MZ....XG |
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