Measuring the positive difference of the complex work of the Energy Wheel (E.W.) in the restitution process

Experimental study of the Energy Wheel (E.W.) and Ladder Lever (L.L.) revealing asymmetric gravitational work and restitution processes with verified laboratory measurements.

This work presents laboratory measurements of the torque force (↑Fom3) and torque work (Wom3) on the Energy Wheel model (E.W.) 26u/52, examined in the (x,z) plane and in its operational pre-position. Accredited laboratories for mass, length, and LIMS performed the verifications. A TEDS Forcetransducer system applied a vertical force ↓Fp to lever arm k1 (Ladder Lever; k1 = k2), generating rotation of k2 and a tangential push on the wheel rim. Two paths were defined: the wheel path on the track, s3 = 1/52 of the circumference, and the much shorter lever-to-rim contact path, s(R)3. This geometric reduction enabled precise evaluation of the restitution process. Results show that the torque work Wom3 = Wp is significantly smaller than the weight work Wu. For the first time, a positive difference in the gravitational field, Wu − ∑W3 = W(Ne+), was experimentally measured, confirming the restitution method and opening new perspectives for gravitational potential applications. The story of potential is just beginning!