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JOptics - Universitat de Barcelona

    http://www.ub.edu/javaoptics/index-en.html
    Ray tracing This applet shows the behavior of optical systems, such as lenses, projectors, telescopes, etc. It includes the calculation of their characteristics (cardinal points) and image formation, either by using paraxial optics approximation or by exact calculation. In this last case you can see and analyze the systems' optical aberrations.

* OpticalRayTracer Home Page - arachnoid.com

    https://www.arachnoid.com/OpticalRayTracer/
    OpticalRayTracer is a powerful, Java-based virtual optical bench. It once functioned perfectly from within a Web page (and on this page) as a Java applet, but it seems applets can no longer be trusted. Here's an image of …

Ray Optics Simulation - Home - GitHub Pages

    https://ricktu288.github.io/ray-optics/
    Simulate the rays and images seen from some position. The blue circle is the observer. Any rays crossing it are considered to be "observed". The observer does not know where the rays actually begin, but may think they begin at some point …

JOptics - Universitat de Barcelona

    http://www.ub.edu/javaoptics/docs_applets/Doc_RayEn.html
    Ray tracing This applet shows the behavior of optical systems, such as lenses, projectors, telescopes, etc. It includes the calculation of their characteristics (cardinal elements) and image formation, either by using paraxial optical approximation or by exact calculation. In the latter case you can see and analyze the system's optical aberrations.

Physlets Optics Applet - AAPT

    https://psrc.aapt.org/items/detail.cfm?ID=3408
    written by Wolfgang Christian. This applet displays ray diagrams for combinations of thin lenses, mirrors, apertures, and various light sources. The user can place objects on the virtual optics bench, change their foci, and point light sources or direct a beam to see the resulting ray diagram. The applet is also designed to be modified for special cases such as fiber optics.

Prof. Alexander N. Cartwright: Java Applets: Ray Tracing: …

    http://www.ee.buffalo.edu/faculty/cartwright/java_applets/ray/FiberOptics/
    Ray Tracing: Fiber Optics - Modeled with Slab Dielectric. Originally Developed by: Pratibha Gopalam: Applet Tutorial

11B Lab 6: Ray Optics - Harvard University

    http://ipl.physics.harvard.edu/wp-uploads/2013/05/Optics-Lab.pdf
    Take a moment to play with the following ray tracing applet: Ray Tracing Applet A.) Place the lens on the table next to a two meter stick. Move the illuminated object to a distance away from the lens (do = object distance). Use a screen to find the image that the lens creates (di = …

Physics Simulations at The Physics Classroom

    https://www.physicsclassroom.com/Physics-Interactives/Refraction-and-Lenses/Optics-Bench/Optics-Bench-Refraction-Interactive
    The Optics Bench Interactive is shown in the iFrame below. There is a small hot spot in the top-left corner. Clicking/tapping the hot spot opens the Interactive in full-screen mode. Use the Escape key on a keyboard (or comparable method) to exit from full-screen mode. There is a second hot-spot in the lower-right corner of the iFrame.

PHYS 224 Applets - IIT

    http://phys.iit.edu/~segre/phys224/06F/quantum_demos.html
    Geometric Optics. Mirror ray tracing applet. Single lens ray tracing applet Physical Optics. Two-slit interference applet. Single-slit diffraction applet. Two-slit interference with diffraction applet. Combination of interference & diffraction. Quantum Mechanics. Photoelectric effect applet

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