The data is a bit noisy; But the Flat velocity response is clear (No dark matter needed).

The Video contains review of the data and the next steps to improve the experiment to reduce the noise before the final data sets are acquired.

Yes, you heard correct, I have to J.O.B on Labor Day; however, this should end up with a 4day weekend for next weekend. I'm trying to close out this experiment by the end of next weekend to start preparation for winter.

The focus is corrected half way through(Sorry).

Watch all of the debris -- the medium is being consumed; however, most items (including the red marker) remain in orbit without getting sucked in. Most of the tiny bits are in perfect stable circular orbits while the large marker has unstable orbit while close in but is eventually throw out. This answers so many questions -- i'll spend more time on this later -- right now I have to leave early for JOB -- busy week ahead but long weekend after that.

The Experiment was run at 100Pcnt DUTY for about 30 minutes to allow Circular flow and central "singularity" to form. Then Recording is started and allowed to run long enough the initial velocities can be measured. Then Duty is reduced to 50% to effect a "step" function.

By analyzing the effect of an abrupt 50% step, we can deduce that flow rate reduction function needed to mimic the behavior seen in galaxies. You can see the disruption that occurs-- eddie flows -- may have to reduce the step size -- will see what processing says

The experiment collects an image frame about once every second. The TimeTick field represents time in 100us ticks since software was started (not when recording is started). To convert to seconds, place decimal point after first 4 digits.

The next step is to process these sequence of RAW images, using the bright markers to measure flow rates at different distances.