A) Quantum entanglement B) Spooky action at a distance C) Wave function D) Wave-particle duality
A) Surface area of a quantum system B) Quantum bit that can be in superposition or entangled C) Elementary particle in atomic nucleus D) Unit of quantized energy
A) Predictions about the future state of a quantum system B) Virtual particles that interact with matter C) Theoretical concepts that cannot be directly observed D) Properties of a system that can be measured
A) Proves the law of conservation of energy B) Determines the speed of light in a vacuum C) Demonstrates the wave-particle duality of light and matter D) Shows the behavior of electrons in a magnetic field
A) Transmission of data through quantum computers B) Phenomenon where a particle passes through a potential barrier C) Creation of virtual particles in particle accelerators D) Movement of particles in a cyclical motion
A) Computer optimized for high-speed internet connections B) Device that controls atomic reactions in power plants C) Computer that uses qubits to perform calculations based on quantum principles D) Software that simulates quantum mechanical behavior
A) Development of quantum algorithms for encryption B) Enhancement of entanglement between particles C) Loss of quantum coherence and transition to classical behavior D) Process of converting classical bits to quantum bits
A) Electrons and protons have quantized momenta B) Orbitals are defined by the probability of finding an electron C) Atoms are composed of positively and negatively charged particles D) Electrons orbit the nucleus in discrete energy levels |