Question 1:
Quantum tunneling is:
Explanation: Quantum tunneling refers to the ability of particles to tunnel through energy barriers that would be classically impassable. It is a consequence of the wave-like nature of particles, allowing them to exhibit probabilistic behavior and penetrate regions where their energy is lower than the barrier's height.
Question 2:
Which of the following phenomena is related to quantum entanglement?
Explanation: Bell's theorem is related to quantum entanglement. It establishes that certain predictions of quantum mechanics cannot be reproduced by any local hidden variable theory, demonstrating the non-local nature of entangled quantum states.
Question 3:
Quantum entanglement is:
Explanation: Quantum entanglement is a phenomenon where two or more particles are connected in such a way that their states are intrinsically linked. When particles become entangled, the measurement of one particle's state instantaneously determines the state of the other, regardless of the distance between them.
Question 4:
Quantum tunneling is a result of:
Explanation: Quantum tunneling is a result of the wave-like behavior of particles. According to quantum mechanics, particles can exhibit wave-particle duality, allowing them to "tunnel" through energy barriers by probabilistically penetrating regions of lower energy.
Question 5:
What is a consequence of quantum entanglement?
Explanation: A consequence of quantum entanglement is the emergence of non-local correlations between entangled particles. When two particles are entangled, their states become linked, and measurements on one particle instantaneously affect the state of the other, regardless of the physical distance between them.