Theory of Magnetivity

The Universal Role of Electromagnetic Waves Binary Systems (Classical Chips): Traditional chips operate using binary states (0 and 1), represented by the presence or absence of electrical charges or voltage. The electromagnetic force governs the flow of electrons, effectively switching states within transistors to create logic gates and computational processes. This simplicity relies on well-defined "on" (positive) and "off" (negative) states, driven by electromagnetic properties. Quantum Systems (Quantum Chips): In quantum computing, the principles of superposition and entanglement introduce a spectrum of values between binary states. Qubits can represent 0, 1, or any combination (superposition) due to the probabilistic nature of quantum mechanics. Despite the complexity, electromagnetic waves are still the driving force, manipulating quantum states via control pulses, lasers, and resonators. Theory of Magnetivity: A Common Ground The Theory of Magnetivity , whic...