👉 Extend: Light Particles are fundamental components of quantum mechanics and play a crucial role in understanding the behavior of light at the subatomic level. These particles, often conceptualized as photons, are massless, electrically neutral entities that exhibit both wave-like and particle-like properties. In the context of light, particles are used to describe discrete packets of energy, which can be emitted or absorbed by atoms and molecules during transitions between energy levels. This particle-wave duality is a cornerstone of quantum theory, explaining phenomena such as the photoelectric effect and the Compton effect. Light particles interact with matter through processes like reflection, refraction, and absorption, but their behavior is also governed by probabilistic wave functions that predict the likelihood of various outcomes. By studying light particles, scientists gain insights into the fundamental nature of electromagnetic radiation and its applications in technology, from lasers to fiber optics.
