Ray Tracing in Geometric Optics
Ray tracing is a technique of geometry that is being applied with its differential properties in the field of optics to trace the path a light takes while interacting with different optical elements. It is concerned with movements of light rays along optical system where the essential picture properties, reflection, refraction, and dispersion, can be predicted.
It is a fundamental technique that is used in the optical system design and analysis while making prisms, mirrors, and lenses to ensure their behavior in the varying circumstances. By using ray tracing, engineers and scientists are able to understand the properties of their optical systems and guarantee that the created ones meet the set specifications.
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Geometric Optics
Geometric optics is a branch of optics that focuses on the study of light as rays, without considering its wave nature. It deals with the behavior of light when it interacts with surfaces and boundaries, particularly in terms of reflection and refraction. Geometric optics is primarily concerned with the formation of images by optical elements such as lenses and mirrors and the principles governing their behavior.
In this article, we will learn in detail about geometric optics, optical instruments based on geometric optics, formulas and examples.
Table of Content
- What is Geometric Optics
- Laws of Geometric Optics
- Mirrors in Geometric Optics
- Lenses in Geometric Optics
- Ray Tracing in Geometric Optics
- Geometric Optics Formula
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