Inertia centrifugal propulsion attempt.

Today I present a type of drive that uses inertial forces and centrifugal forces. The idea is not new and from time to time you can come across such solutions on the Internet. This drive consists of a main mass, a guide shaft, a shaft mount and nine ball rolling bearings including two linear bearings, an outer rim and a 230V DC motor. The outer rim is connected to the shaft mount in such a way as to allow the internal components to move in one plane, while providing support for the entire rotor, which is embedded in the rim through ball bearings. The main mass has five bearings, two on each side, in addition, the central guide shaft has a pivot point in its upper part equipped with a ball bearing, which is mounted in the hole in the main mass with its outer shell. The guide shaft is constructed of two bars joined at one end through a shaft passing through the center of the bearing mounted in the main mass. Linear bearings are mounted in the guide shaft mount in the amount of two pieces in the holes in this mount and rotate together with this mounting, providing an essential sliding element for the guide shaft. Of course, this system will be connected to the same systems with the opposite direction of rotation of the rotor. The system is scalable and can be built at any scale without losing its driving qualities. However, the functionality of such devices may be compromised due to eccentricity, which can cause vibrations. Similar solutions were presented by inventor Steven Hampton in the eighties, and the videos are still available today on his YouTube channel.