Keywords |
bar magnets for movable loads, designing of a gravitational-magnetic motor, designing of motor rotor equipped by movable loads, development of gravity-magnetic engine, gravitational-magnetic motor, magnets for movable loads of rotor, magnets for movable loads of engine, motor rotor with movable loads, movable loads with Bar magnets, movable loads with permanent magnets, rotor design of the fuelless engine, rotor equipped by movable loads, harnessing gravitation for creating net torque, joint harnessing energy of gravitation and magnets, levitation magnets of the rotor movable loads, net torque on the motor shaft due to gravitation, options of gravitational-magnetic engines, rotor and stator of gravity magnetic motor, stationary magnets and movable loads, stationary permanent magnets of gravity-magnet motor, stationary magnets provide levitation magnets of the movable loads, stator with a special stationary rigid body, trajectories of the movable loads of rotor, wheels moving along inclined paths of the coupled disks, additional force impact of stator magnets on the rotor movable loads, harnessing gravitation due to the formation of the unequal-arm levers of rotation, initial part of net torque on the motor shaft due to impact of gravitation, large number of inclined paths is embedded into coupled disks paths, movable loads pairwise linked by unequal-arm levers of rotation relative to rotor axis
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Description |
Presented the theoretical justification of the possibility designing a variety of options of the engine rotors, for which, together with the use direct influence of gravity on the masses of movable loads are used impact by any other source of environmentally-friendly energy: the energy of force impact of the permanent magnets, the energy of falling water, or potential energy of elastic deformation of a stationary rigid body.
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