ECD’s design exploits repulsion gradients of N52 Grade Neodymium through specialized geometry, placement, and atomic alignment to minimize counterforces so that motion continues in a single direction without getting stuck at the normal equilibrium points.  Therein, the device utilizes converging patterns to form ramps in magnetic fields where the repulsion from one drive disk feeds into the open-loop flux path of the next, allowing the sinuous electron-derived fields to cascade.  This ‘chaining event’ creates a sequential boost at each disk’s reaction point turning the drive assembly into a multi-stage kinetic amplifier.  Furthermore, the open-loop design prevents back-EMF from propagating ensuring that forward momentum dominates through the path of least resistance.  And since the system is a magnetically suspended setup (frictionless) it minimizes losses normally associated with what is called a ‘magnet motor’.  The circular kinetic energy (rotation of the disk) is then used to establish a magnetic flux within an air gap and as a result of relative motion with the air gap flux an electrical potential is induced within a set of coils, which is called “Electricity”.

N52 neodymium magnets (the highest commercial grade) have an exceptionally long lifespan under proper conditions—typically decades to over 100 years, with minimal demagnetization.  Studies and manufacturer data indicate they lose less than 1% of their magnetic strength per century in ideal environments (cool, dry, away from extreme heat, shocks, or opposing fields).  Factors like temperature (avoid exceeding 80°C/176°F for standard N52), corrosion, and mechanical stress can shorten this, but with coatings and careful handling, they’re considered effectively permanent for most applications.  For example, one source notes they can retain peak performance for 100 years if maintained optimally.