The imbalance in the electric force, which we call gravity, manifests itself as a low pressure area in the aether between bodies of dielectric matter. There’s a tendency for neutrinos to leave the field between such bodies.
It follows from this that the regions away from the gravitational field must experience a high pressure corresponding to the low pressure. This high pressure is the opposite of gravity. It’s antigravity.
Since the space away from the gravitational field is much bigger than the field itself, the high pressure produced is dispersed to such a degree that it becomes impossible to detect in places like our solar system where astronomical bodies are thinly distributed. However, in environments with a great number of astronomic bodies packed closely together, antigravity may be detectable.
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