Based on a electromagnetic core in a vortex of spunningliquid Mercury with a stable electrically charged energy.
Anti-gravity propulsion systems are hypothetical and not currently proven to exist. The concept involves the manipulation of gravitational forces to create thrust without the need for conventional propulsion systems. The theoretical basis for such technology often involves ideas from speculative physics, such as wormholes or negative matter.
Antigravity refers to hypothetical theories or technologies that aim to counteract the force of gravity, providing a means to achieve levitation or propulsion without the need for traditional aerodynamic lift or thrust mechanisms. These concepts often exist in the realm of science fiction or fringe physics, as current scientific understanding does not support the existence of antigravity as commonly portrayed.
Plasma propulsion works by generating and accelerating plasma (a state of matter with charged particles) in a magnetic or electric field to generate thrust. The accelerated plasma is expelled from the engine at high velocities, creating a reaction force that propels the spacecraft forward. This method is more efficient than traditional chemical propulsion systems, allowing for longer missions and greater speeds.
Liquid propulsion systems have been designed by a variety of engineers and scientists over the years, with notable contributors including Robert H. Goddard, Wernher von Braun, and Sergei Korolev. These systems use liquid fuel and oxidizer that are stored separately and mixed and combusted in a combustion chamber to generate thrust.
To increase propulsion efficiency, you can consider reducing weight, improving hull design to reduce drag, using more efficient propulsion systems like hydrofoils or electric motors, and optimizing the operation of the propulsion system through better maintenance and operating practices. Regularly cleaning hulls and propellers can also help reduce drag and increase efficiency.
The three main propulsion types are chemical propulsion, electric propulsion, and nuclear propulsion. Chemical propulsion uses chemical reactions to generate thrust, electric propulsion uses electric power to accelerate propellant to high speeds, and nuclear propulsion uses controlled nuclear reactions for propulsion.
Antigravity refers to hypothetical theories or technologies that aim to counteract the force of gravity, providing a means to achieve levitation or propulsion without the need for traditional aerodynamic lift or thrust mechanisms. These concepts often exist in the realm of science fiction or fringe physics, as current scientific understanding does not support the existence of antigravity as commonly portrayed.
There, at this point, no device that is antigravity. You will have to develop the formula for it.
The cast of CnC Presents Antigravity - 2004 includes: Antigravity Group as Dancers
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Novel uses of turboelectric propulsion : • Turboelectric aircraft system studies, Core turboelectric new systems, and Megawatt- research facilities. Turboelectric systems are electric propulsion systems that use turbines to drive the electrical generators that power electric propulsion, which in turn drive propulsors (as propellers). These systems are probably the only approach for developing electric propulsion systems for a large passenger aircraft that can be feasibly achieved in the ongoing years. The use of other technologies, turboelectric systems could potentially reduce fuel burn by lots to 30 percent or more compared to aircraft in service today. These projects would include research to better understand the benefits and design trade-offs related to line aircraft systems and the creation of system research facilities to better develop the core megawatt- line systems for turboelectric aircraft propulsion.
Deny See Hoye has written: 'An assessment of ion propulsion systems' -- subject(s): Ion propulsion, Electrostatics
S. E. Chaflin has written: 'Hybrid propulsion technology program' -- subject(s): Space vehicles, Propulsion systems
Roger Metcalf Myers has written: 'MPD thruster technology' -- subject(s): Electric propulsion systems, Space vehicles, Nuclear propulsion 'Applied-field MPD thruster geometry effects' -- subject(s): Plasma (Ionized gases), Electric propulsion systems, Space vehicles 'Evaluation of externally heated pulsed MPD thruster cathodes' -- subject(s): Electric propulsion systems, Plasma dynamics, Space vehicles 'Anode power deposition in applied-field MPD thrusters' -- subject(s): Plasma dynamics, Electric propulsion
it probably doesn't
The propulsion system of a biplane would be a piston engine driving a propellor, while a fighter jet is jet propelled.
Plasma propulsion works by generating and accelerating plasma (a state of matter with charged particles) in a magnetic or electric field to generate thrust. The accelerated plasma is expelled from the engine at high velocities, creating a reaction force that propels the spacecraft forward. This method is more efficient than traditional chemical propulsion systems, allowing for longer missions and greater speeds.
John M. Klineberg has written: 'Advances in computational design and analysis of airbreathing propulsion systems' -- subject(s): Airplanes, Jet propulsion