Geometric optics is a branch of optics that examines light’s behavior by focusing on the path of light rays and their interactions with surfaces and interfaces. It simplifies the study of light by considering it as rays traveling in straight lines, ignoring the wave nature of light and diffraction effects that occur when light interacts with small obstacles or openings.

In geometric optics, light is treated as if it travels in straight lines and changes direction when it encounters boundaries between different mediums (like air and glass) or optical elements (such as lenses or mirrors). This approach is highly applicable in understanding how lenses form images, how mirrors reflect light, and how optical systems like telescopes, microscopes, and cameras work.

Key concepts in geometric optics include:

Reflection: Describes how light bounces off surfaces, following the law of reflection, where the angle of incidence equals the angle of reflection.

Refraction: Explains how light bends when it passes through different mediums, following Snell’s law, which relates the angles of incidence and refraction to the refractive indices of the mediums involved.

Lenses and Mirrors: Investigates the behavior of light as it passes through or reflects off these optical components, analyzing how they focus light to create images.