use 2 superconductors each making same sinewave. Use iron to let them run in sync. Let one only power something small, the other attach to a hanging antenna that does not touch ground.
See what happens when you run them inductively with what the one powers through a cap.
The cap breaks potential. The freq's run in phase, oh and make the entire system of wiring ferrous metal even though contacts aren't. Last but not least; mount chips on ceramic. Freq's you experiment with. use carrier.
extremely helpful.
TheOddDivision 8 hours ago
use 2 superconductors each making same sinewave. Use iron to let them run in sync. Let one only power something small, the other attach to a hanging antenna that does not touch ground.
See what happens when you run them inductively with what the one powers through a cap.
The cap breaks potential. The freq's run in phase, oh and make the entire system of wiring ferrous metal even though contacts aren't. Last but not least; mount chips on ceramic. Freq's you experiment with. use carrier.
mikefromspace 2 months ago
Thanks for the great videos and this is really helping me pick-up where I left off in school.
I will keep you informed as to how it works out for me and send another thank you when I get threw some more work
YEAH Thanks!
Um I will check Google documents to look again for any worksheets or workbooks you may have out
Peace
swoonthesober 8 months ago
because the ration of Ohms of R2 to R3 is 2:1 why not do that math. .00522 * (1/2) for R3 and then R2 would be the delta?
huerdon 10 months ago
why couldnt my teacher explain it like this.....
solanin 11 months ago
Thank you so much!
=)
Albinorama 1 year ago