In reply to Andrew Meulenberg's message of Mon, 12 Dec 2022 20:04:21 -0600: Hi Andrew,
I think this one is the original: https://link.springer.com/article/10.1007/s11207-019-1447-1 from which I think https://www.space.com/planets-affect-solar-cycle.html is derived. The latter in plain English. >Robin, > >Do you have a link for this? I proposed something similar at MIT about 40 >years ago. I looked at the direct relationships and many resonances but >could not find one. I did not have time (could not rationalize taking the >time) to look at the accelerations (as in tidal influences). It certainly >looked as if there should be some correlations. > >Andrew >_ _ _ > >On Mon, Dec 12, 2022 at 4:41 PM Robin <mixent...@aussiebroadband.com.au> >wrote: > >> Hi, >> >> There have been a number of papers recently on the correlation between >> planetary motion and the sunspot cycle, some >> without an explanation of the mechanism. >> >> My take on the matter is this. Motion of the Sun about the barycenter of >> the solar system causes the solar plasma to >> "slosh" as would water in a bucket if you wobble the bucket. If you get >> the frequency right then the water in the bucket >> will rotate. In the case of the Sun, the resulting rotation is one and the >> same as the rotation of the Sun about it's >> axis. This rotation of the plasma creates the solar magnetic field. The >> whole thing is completely causal. Ergo changes >> in planetary positions, produce equivalent changes in the motion of the >> Sun, which in turn alter the plasma flow, which >> in turn alters its magnetic field. >> Cloud storage:- >> >> Unsafe, Slow, Expensive >> >> ...pick any three. >> >> Cloud storage:- Unsafe, Slow, Expensive ...pick any three.
