- 48 - values of microwaves, must be responsible for this influence. 6. Furthermore, long-term effects appear with activated probes. The torsion scale makes periodic deflections at around 12 hours intervals and they are superimposed by short-term effects that might possibly stem from external high frequency interfering sources (Image 8 and 9). The long-term periodical deflections are probably due to the sun’s activity or “spheric conditions”. The influence of visible sunlight can however be excluded, because the test room is always completely shielded from outside light, so that only radio waves, respectively the microwave component of sunlight and the atmosphere could play a part. The long-term effects tent to subside after 1 or 2 months. Image 8: Typical long-term effects with superimposed short-term effects. In comparison, zero-runs on the torsion scale (intermittent lines) and runs of probes that we already activated some time ago that were conducted exactly one year later are depicted. One can clearly recognise the long-term behaviour (the numbers on top connote the time of day) with short-term periodical overlay. In comparison, the lowest row depicts the influence of a simulated interference on the torsion scale. The water of the probe was heated to a temperature of 800 C via a heat resistor with a capacity of 50 W. The current supply happened via strips of gold of 20 μm strength. Image 9: Typical long-term effects with superimposed short-term effects. The short-term effects partially developed from an intentional high frequency energy supply (3rd and 5th row from above) and partially through the influence of external high frequency disturbances (2nd and 4thg row from above).
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