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According to the principles of quantum mechanics, light exhibits both particle-like and wave-like behavior. This concept is known as wave-particle duality. However, there are certain experimental phenomena where the particle nature of light becomes more apparent. Here are a few examples:

  1. Photoelectric Effect: The photoelectric effect occurs when light interacts with a material, causing the ejection of electrons. This phenomenon can be explained by considering light as a stream of discrete particles called photons. The energy of each photon is directly related to the frequency of the light, rather than its wave characteristics.

  2. Compton Scattering: Compton scattering refers to the scattering of photons by electrons or other charged particles. During this process, photons collide with electrons and transfer some of their energy and momentum to the electrons, causing a change in the wavelength of the scattered light. This behavior is best explained by considering light as a stream of particles.

  3. Photon Counting: In certain experiments, light can be measured and detected as individual photons. Devices such as photomultiplier tubes or single-photon detectors are capable of registering the discrete particle nature of light. This demonstrates that light can be treated as particles when it comes to counting and detecting individual quanta of energy.

  4. Photographic Plate Exposure: When light strikes a photographic plate or film, it interacts with light-sensitive particles or molecules, causing a chemical reaction. The exposure pattern on the photographic medium is a result of discrete packets of energy (photons) impacting the material, indicating the particle-like nature of light.

These examples highlight situations where the particle nature of light becomes more prominent and provides a more accurate description of the observed phenomena. However, it's important to note that light also exhibits wave-like behavior, such as interference and diffraction, which cannot be fully explained by treating it solely as a particle. Wave-particle duality is a fundamental aspect of quantum mechanics and is essential for understanding the behavior of light and other particles at the microscopic level.

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