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Light exhibits characteristics of both waves and particles, which is known as wave-particle duality. This duality is a fundamental concept in quantum mechanics.

In certain experiments and phenomena, light behaves like a wave. It exhibits properties such as interference, diffraction, and polarization, which are typical of wave behavior. These wave-like properties of light can be described using wave equations and mathematical tools like superposition and interference.

At the same time, light can also exhibit particle-like behavior. For example, the photoelectric effect demonstrates that light can transfer discrete packets of energy called photons to electrons, causing them to be ejected from a material. This behavior is more in line with the particle nature of light.

Therefore, it is not accurate to classify light exclusively as either a wave or a particle. Light is best understood as an electromagnetic phenomenon that exhibits both wave-like and particle-like behavior, depending on the experimental setup and the phenomena being observed.

In terms of its physical nature, light is not considered matter in the traditional sense. Matter typically consists of particles with mass, while light consists of massless particles called photons. However, it is important to note that light is an essential component of the electromagnetic spectrum and is responsible for electromagnetic interactions, including the transmission of energy and information.

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