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The dual nature of light, as both a particle and a wave, is a fundamental concept in quantum mechanics and is known as wave-particle duality. It emerged from experimental observations that could not be explained by classical physics alone.

First, let's discuss the wave nature of light. Light exhibits wave-like properties such as interference and diffraction. These phenomena can be explained by treating light as an electromagnetic wave, characterized by its wavelength, frequency, and propagation in space. Interference occurs when two or more light waves combine, leading to constructive or destructive interference patterns. Diffraction refers to the bending or spreading of light waves as they encounter obstacles or pass through narrow openings.

On the other hand, the particle nature of light is associated with discrete packets of energy called photons. Photons are quanta of electromagnetic radiation, and each carries a specific amount of energy proportional to its frequency. This particle behavior is particularly evident in phenomena such as the photoelectric effect and Compton scattering. The photoelectric effect occurs when light, composed of photons, interacts with a material, causing the emission of electrons. The energy transfer in this process is quantized and depends on the energy of individual photons. Compton scattering involves the scattering of photons off electrons, demonstrating their particle-like behavior and conservation of momentum.

It's important to note that the wave-particle duality is not limited to light. Other types of electromagnetic radiation, including radio waves, microwaves, infrared radiation, ultraviolet radiation, X-rays, and gamma rays, also exhibit this duality. The behavior of these radiations can be explained both by their wave-like properties (interference, diffraction) and their particle-like behavior (quantized energy transfer). The specific characteristics and behaviors of each type of electromagnetic radiation depend on their respective frequencies or wavelengths.

In summary, the wave-particle duality of light and other forms of electromagnetic radiation arises from experimental observations that can be explained by treating them both as waves and as particles. This duality is a fundamental aspect of quantum mechanics and has been extensively verified through numerous experiments.

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