I came to this conclusion because I felt you would not interact with the distant stars faster than light so there had to be something here that the distant stars created that we would interact with. Push heavy, pull light by rotating your oar, or in your case by changing jerk, but I think it also generates a wave. The way I came to grasp with it was that by interacting with space is like turning your boat oar sideways and you get more of a push when your interacting with space locally but generating an inertial wave so to speak. I get that Woodward's equation takes into account using positive energy but he also has a negative mass term. I wanted to ask you a question regarding this inertial wave. Much better to use a laser displacement sensor as all the data (device power and movement) can be logged simultaneously using a moderately priced ADC. Alternatively, a camera could be used but then processing the video after each experiment to extract the movement data is laborious. Of course, the sensor and amplifier would cost many thousands of dollars.
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I think the ZS-HLDS60, ZS-L20 or ZS-元5 series would be possible choices given the total distance the sled can move. There are laser displacement sensors with ranges of many cm that could be used. I'm sure there are plans to log data from the movement of the sled. The battery powered tests will be interesting. No doubt tension from the wires had a large influence here (I remember that being the case when I tried a tethered air sled). It also appears the sled was coming to a stop before the device was powered off. It is not clear from the video if there was any increase in velocity when it was powered. I have to agree since it seems the device and sled were already moving before the device was powered.
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