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The wave-particle duality is one of the fundamental concepts in quantum mechanics, and it describes the behavior of particles at the microscopic level, such as electrons, photons, and other elementary particles. It states that these particles can exhibit both wave-like and particle-like properties depending on how they are observed or measured. While it may seem counterintuitive from our everyday experience with macroscopic objects, this duality is a consequence of the probabilistic nature of quantum mechanics.

Particles, such as electrons or photons, can exhibit wave-like behavior in certain experimental setups. For example, when a beam of electrons or photons passes through a double-slit experiment, it produces an interference pattern on a screen, similar to what is observed with waves. This interference pattern arises due to the wave nature of the particles and the constructive or destructive interference of their wave functions.

On the other hand, particles also exhibit particle-like behavior when they are localized or measured. When we interact with a particle to determine its position or momentum, for instance, we find that it behaves like a discrete, localized entity. This behavior is associated with the particle nature of the particles.

The wave-particle duality arises mathematically from the wave function, which is a fundamental concept in quantum mechanics. The wave function describes the probability amplitude distribution of a particle and allows us to calculate the probabilities of obtaining different measurement outcomes. The wave function evolves according to the Schrödinger equation, which is a wave-like equation. However, when a measurement is made, the wave function collapses to a specific measurement outcome, exhibiting particle-like behavior.

It's important to note that the wave-particle duality is not a contradiction but rather a fundamental aspect of quantum mechanics. It highlights the limitations of classical intuition in describing the behavior of microscopic particles and emphasizes the probabilistic nature of quantum systems. The wave-particle duality has been extensively verified through numerous experiments, and it forms the basis of our current understanding of quantum mechanics.

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