Please any and all. Please see if my plan of attack is sound or not.
What I meant earlier regarding the frequency staying the same but the velocity only changes might be conveyed like so.
I am working from a radia interval that is 3.75 degree between magnets. Below you can see such spacing at an 300mm inner radius of the magnets.
I would like to review with you guys a plan to determine which coil configuration (wire size and shape) in combination with which magnet configuration (traditional or repelling at various intervals of radia)
But also sometimes I try out to increase the density of the magnets by 100% and then one will end up with something like this.
I am not sure how to compare apples to oranges.
Please let me explain.
I would like to see how to create the maximum magnetic field possible induced by magnets rotating over them.
So here is my plan of attack:
1) create a bunch of different test coils varying from 0.4mm diam wire size to 1mm diam. and also in shape.
Do make sure that the 0.4mm wire coils are at all times 4 x more winds than the 1mm one. As one can fit only 4 times that wire in the same space of a 1mm one.
2) run various magnet configurations over all variations of the coils at the intended frequency. for single density that would be around 3.8 Hz and for double density that would be double that.
3) record what voltage each coil can produce at said frequencies,
4) hook up an Variable Frequency Drive to the variac at the intended frequency and at the voltage level it would have produced while induced by the magnets spinning.
5) now measure the magnetic field on each coil making sure to also take into account the depth and area it encompasses ( larger is better for breaking ability)
I am really hoping for some debate on this. even if only to hear "sounds like a plan"