Electromagnetic acceleration theory

Electromagnetic acceleration uses magnetic fields and electric currents to propel objects without moving parts like traditional engines. When an electric current flows through a coil or wire near a magnetic field, it experiences a force that pushes it forward—a principle known as Lorentz force. In applications like maglev trains or certain spacecraft propulsion systems, this force generates acceleration, enabling movement at high speeds with minimal friction. The system converts electrical energy directly into kinetic energy through carefully controlled electromagnetic interactions, making it an efficient way to accelerate objects in various high-tech transportation and propulsion technologies.