Pioneering the Applications of Interphasal Resonances http://tech.groups.yahoo.com/group/teslafy/
----- Forwarded Message ----- From: [email protected] [teslafy] <[email protected]>To: "[email protected]" <[email protected]>Sent: Sunday, May 26, 2019, 2:30:56 PM EDTSubject: [teslafy] Comment made on symmertrical derivatives https://www.quora.com/What-does-the-e-constant-represent-in-calculus Philip Lloyd, I have also been HOD maths in 3 prestigious New Zealand Schools made a comment here as follows; The constant “e” represents all sorts of things in mathematics but the answer particularly relevant to Calculus is the amazing fact that the derivative of e^x equals itself! My reply; It seems very true that things we consider fantastic are only fantastic to us, as if we have seen some privileged light on the matter. As such some generalizations leading to analogies can be made here. I considered it fantastic that in the study of very loosely coupled large resonant circuits driven at wall supply frequency that your description given here as a function that has a derivative identical to itself to be absolutely identical to my research into magnetic field actions between coils where the cause and effect: which are normally interpreted to have reciprocal actions in time; were instead symmetrical! Indeed the concept of a derivative as an instantaneous slope reading as explained in calculus itself applies in the magnetic field change in time as expressed by i=dq/dt. Secondarily the induced voltage received on a secondary is applied as a derivative where di/dt = V/L ; essentially meaning that that the induced voltage on the secondary is 90 degrees out of phase with the primary amperage change in time. Now because each transmission and receiving side has cancelling reactances the amperes that develope are not inhibited by this factor/ and the induced amperage is then proportional to V. In the above equations we can replace e^(x) with dq/dt =i and find that that this measured quantity i; interpreted as a derivative proportional to the sending primary current i; is in fact a derivative of itself for this specific unique situation of symmetrical results whereby the measured i quantity is the same irrespective of the resistance of the receiving coil. Forward & Reverse Operations of 60hz Resonant Transformations. fwd operation @ 25 volts @2:35 https://www.flickr.com/photos/harvich/46127172765/in/dateposted-public/ bkwd operation comment @ 25 volts @4:27 https://www.flickr.com/photos/harvich/40076241583/in/dateposted-public/ __._,_.___ Posted by: [email protected] | Reply via web post | • | Reply to sender | • | Reply to group | • | Start a New Topic | • | Messages in this topic (1) | Visit Your Group • Privacy • Unsubscribe • Terms of Use SPONSORED LINKS . __,_._,___
