The refraction of light through a prism is crucial for comprehending the phenomenon of rainbow colors, acting as a tangible model for the natural optics occurring in rainbows. When white light passes through a prism, it undergoes dispersion, where the various colors within the light spectrum are separated due to their distinct wavelengths. This dispersion is pivotal in understanding the vibrant hues seen in a rainbow.

Similarly, in the atmosphere, rainbows form when sunlight interacts with raindrops. The sunlight, like white light through a prism, undergoes dispersion within each raindrop. As the dispersed light is refracted, it separates into its constituent colors, creating the iconic spectrum of a rainbow.

The prism experiment offers a simplified representation of the intricate processes taking place in nature. Through the prism, students witness how the bending of light, contingent on its wavelength, results in the emergence of a spectrum. This hands-on experience lays the foundation for understanding why rainbows exhibit a sequence of colors, providing a tangible connection between laboratory physics and the awe-inspiring beauty of natural optical phenomena.