A self-propelling method includes providing an impulse to a first magnet, the first magnet having angular momentum about a first point subsequent to the impulse, and inducing a change in angular momentum of a second magnet in response to magnetic attraction with the first magnet, the second magnet rotating about a second point, so that the first and second magnets are rotatably coupled to a rigid vehicle platform at the first and second points, and the inducing a change in angular momentum of the second magnet results in a transferred linear impulse of rigid vehicle platform in a first direction.

A self-propelling method includes providing an impulse to a first magnet, the first magnet having angular momentum about a first point subsequent to the impulse, and inducing a change in angular momentum of a second magnet in response to magnetic attraction with the first magnet, the second magnet rotating about a second point, so that the first and second magnets are rotatably coupled to a rigid vehicle platform at the first and second points, and the inducing a change in angular momentum of the second magnet results in a transferred linear impulse of rigid vehicle platform in a first direction.

Embodiments described herein provide devices, systems, and techniques for generating a magnetic field pattern that includes a plurality of magnetic poles. In specific embodiments, a magnetic device is disclosed which generates a magnetic field pattern including two magnetic poles of the same polarity on both ends, or sides of the magnetic device, and a third magnetic pole of a different polarity from the other two magnetic poles, wherein the third magnetic pole is located inside the magnetic device and between the other two magnetic poles. Moreover, the magnetic device is configured with two openings located at the two transition boundaries/interfaces of the three-pole magnetic field. As such, the two transition boundaries become accessible to objects. In particular, when another magnet is inserted at an interface between two magnetic poles, the magnet will “register” right at the interface and hover over or be suspended at the opening of the magnetic device.

Embodiments described herein provide devices, systems, and techniques for generating a magnetic field pattern that includes a plurality of magnetic poles. In specific embodiments, a magnetic device is disclosed which generates a magnetic field pattern including two magnetic poles of the same polarity on both ends, or sides of the magnetic device, and a third magnetic pole of a different polarity from the other two magnetic poles, wherein the third magnetic pole is located inside the magnetic device and between the other two magnetic poles. Moreover, the magnetic device is configured with two openings located at the two transition boundaries/interfaces of the three-pole magnetic field. As such, the two transition boundaries become accessible to objects. In particular, when another magnet is inserted at an interface between two magnetic poles, the magnet will “register” right at the interface and hover over or be suspended at the opening of the magnetic device.

A system in a water body uses buoyant force of gaseous Hydrogen and Oxygen to generate electrical power with one or more turbines that includes power resulting from the buoyant force while transporting the Hydrogen or Oxygen to a higher elevation, without loss of electrons, for conversion to electricity at the higher elevation. Conversion of Hydrogen and Oxygen to water through a Hydrogen Fuel Cell or by burning at the higher elevation may generate additional steam power, hydropower, or purified water. Portable submersible modules may transport the system below or above the water to and from the base of a plumbing portion of the system. The amount of gaseous fuel energy available at the higher elevation is not detrimentally impacted by the generation of electricity by the turbine.

A rotating member comprising a central portion having a center aperture, a first arm extending radially outward from the central portion, the first arm having a length L, a second arm extending radially outward from the central portion, a first magnet mounted on the first arm such that a magnetic field of the first magnet extends into a recess between the first and second arms, and a second magnet mounted on the second arm such that a magnetic field of the second magnet extends into the recess between the first and second arms.

An electric motor-generator and method of use including a bowl-shaped coated copper windings electromagnet (50M), a bowl-shaped coated copper windings generator coil (50G), a spheroidal shaped super magnet and axle rotor unit (20) having one or a plurality of super magnets assembled together to form an approximately spheroidal shaped super magnet fixedly connected around an axle (30), and, an electric circuit (310) configured in such a way as to repetitively pulse and reverse direct current to the bowl-shaped coated copper windings electromagnet and connect to a power source. The bowl-shaped coated copper windings electromagnet is configured to repetitively repel the approximately spheroidal shaped super magnet when pulsed reversing direct current is applied, and the approximately spheroidal shaped super magnet is configured to rotate within the cavities of both the bowl-shaped coated copper windings electromagnet and the bowl-shaped coated copper windings generator coil, whereby alternating current is produced.

A gravity motor that has the ability to generate a mechanical power from gravitational force, and maintains any level of generated mechanical power. And generates mechanical power that when connected to electric generator it produces electricity. And it has the ability to maintain any level of generated electrical power. It generates large mechanical power for when connecting the output gear to a larger gear it will provide more larger amount of torque by gravity. It generates the required speed because the gravitational acceleration will increase the generated speed to the required limit. It also maintains any required speed because the speed controller will control the generated speed. It has the ability to remove air friction by two circular shape covers which can fit on each other for the rotor part. It controls the gravity effect on part of the circular motion path because it uses the new law in physics.

A wheel-based generator of a range extender and recharger for an electric vehicle is characterized by comprising an armature winding, wheel cover, wheel well, tire, permanent magnets, spokes, charge controller and battery bank. This is a frictionless, high efficiency, brushless generator design that utilizes the wheel well and or wheel cover, together with the mechanical energy of the tire itself to create a frictionless brushless generator that will deliver power to the engine directly or can be diverted to the battery bank for recharging.

Systems and methods for providing power to a load are provided. One system includes a first reactor including a first plurality of coils. A first coil of the first plurality of coils is configured to generate a first magnetic field, and a plurality of second coils of the first plurality of coils are configured to generate a plurality of second magnetic fields that vary an intensity of the first magnetic field. The system further comprises a second reactor comprising a second plurality of coils, wherein the second plurality of coils are configured to tune the first reactor to the load. The first reactor is configured to provide the power to the load, and the second reactor is configured to increase the power provided to the load by increasing an intensity of the second magnetic fields generated by the second coils and tuning the first reactor to the load.