Human illuson of field
The following picture shows the case of a one-way direction.
Electrical field of a body in case of equal number of positive and negative charges
According to the figure, there is a body located at point CA. That body has an equal number of positive and negative charges. Those values are shown schematically as NV (negative value of charges) and PV (positive value of charges).
Negative charges produce a negative electrical field around the body, while positive charges produce a positive electrical field around the body. Those fields are shown in blue and red, respectively.
Those fields decrease their magnitude by distance. At some remote point C2, the negative electrical field drops to the value NVR, and at the same remote point C2, the positive electrical field drops to the value PVR.
As a result, their interaction forces with a test charge also drop by increasing distance. That is a well-known inverse square law of interaction between electrical charges. Therefore, interaction decreases by distance. As a result, forces of interaction between fields and the test charge or another body located at that point appear as FC2N and FC2P. Those two forces are equal in magnitudes to each other and opposite in directions. Therefore, the net force detectable by a test charge or another "neutrally charged body" equals zero at point C2.
Suppose now this. The test charge of a test body changes its location from C2 to C1. Point C1 is located closer to the body CA. Therefore, the values of the fields at that point become greater than those at point C2. As a result, forces of interaction also increase their magnitudes. Those forces shown in the figure are FC1N and FC1P. Despite higher magnitudes, those forces are still opposite each other. As a result, the net force also keeps zero magnitude. Therefore,
A charge detects the difference in fields at points C1 and C2. However, the measuring instrument has zero indication at both points because the device's measurement method does not allow it to detect those changes.
The observer should use a device with a different way of measurement to detect such differences.
Such devices should detect positive and negative fields separately.
- Allan Zade
Changes in the charge of the test body show no difference in measurements because every single charge of that body becomes affected by two forces equal in magnitude and opposite in direction.
As a result, the observer sees no difference in the test body's positive charge, negative charge, or "neutral condition" when it has an equal number of positive and negative charges. The main body placed in the experiment and located at the point CA also has an equal number of positive and negative charges.
That situation led humankind to the huge illusion that a body with an equal number of positive and negative charges, or "electrically neutral body," has no electrical field around it. The explanation given above disproves that illusion.
However, so-called "mainstream science" never accepted that explanation because the absence of an electrical field around an electrically neutral body became a cornerstone of modern physics many decades ago.
Therefore, you can learn something beyond imagination only from information on this site or directly from Allan Zade.