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Lecture 17: Lenses and ray tracing - Physics
https://physicscourses.colorado.edu/phys1230/phys1230_fa18/lectures/Lecture17_Lenses_and_Ray_Tracing_fa18.pdf
n=1 Ray tracing: 1. As long as ray stays in same medium, it goes straight. 2. At each interface to a different medium, calculate how it will bend. Go back to 1. Ray tracing to understand lenses and images This gets tedious! 13 F F foci focal length If the glass surface is nearly a section of a sphere, it will FOCUS parallel rays.
Ray Tracing Mirrors - This documents is for grade 10 …
https://www.studocu.com/en-ca/document/high-school-canada/science/ray-tracing-mirrors-this-documents-is-for-grade-10-science/14457825
Gizmo Warm-up The Ray Tracing (Mirrors) Gizmo shows a side view of a light bulb positioned to the left of a mirror. Light rays passing from the light bulb to the mirror are shown. ... (Hint: The distance between the focal point and the lens ( f) is always positive for a concave mirror.)(Bonus Mark) If So is negative and f is positive, the ratio ...
Ray Tracing: Convex & Concave Mirrors - Study.com
https://study.com/academy/lesson/ray-tracing-convex-concave-mirrors.html
Continue the reflected ray behind the mirror with a dotted line. Step 1 in red Step 2: Draw another ray from the same starting point and aim it …
Ray Diagrams for Mirrors - Georgia State University
http://hyperphysics.phy-astr.gsu.edu/hbase/geoopt/mirray.html
Mirror ray tracing is similar to lens ray tracing in that rays parallel to the optic axis and through the focal point are used. A third useful ray is that through the center of curvature since it is normal to the mirror and retraces its path backward. Index …
Ray Tracing - science.sbcc.edu
http://science.sbcc.edu/physics/folsom/labs/ray_tracing.html
Objects and Images 1) Place the convex lens on a piece of paper. Place a pencil mark "object" approximately 5 cm away from the center of the lens, on the LEFT side. 2) Shine a single light ray through the object and the lens. Trace the refracted ray exiting the lens. 3) Repeat step 2) for 2 more light rays at different angles.
Experiment 2-C Ray Tracing with Lenses and Mirrors
http://facpub.stjohns.edu/facpub-physics/General%20Physics%20Lab%20Manual/17%20Ray%20Tracing.doc
(1) Check that your ray box is using only three rays (the central ray and the two outer rays). Any other openings should be blocked by tape. (2) Set up the apparatus as shown in the top view in Figure A. Tape a sheet of unruled paper to the table in front of the ray box. Place the ray box about 3 cm from the edge of the paper.
3.1.Image formation by Mirrors and Lenses - Physics Courses
https://courses.physics.ucsd.edu/2009/Fall/physics1c/documents/3.1.ImageformationbyMirrorsandLenses.pdf
• A spherical mirror is an approximation of a parabolic mirror for small curvatures. (i.e. for paraxial rays –close to parallel to the optic axis. • Spherical mirrors can be convex or concave light light concave convex Parallel beams focus at the focal point of a Concave Mirror. Focal point Ray tracing with a concave spherical mirrors
Physics Tutorial: Ray Diagrams - Concave Mirrors
https://www.physicsclassroom.com/class/refln/Lesson-3/Ray-Diagrams-Concave-Mirrors
Using a straight edge, accurately draw one ray so that it passes exactly through the focal point on the way to the mirror. Draw the second ray such that it travels exactly parallel to the principal axis. Place arrowheads upon the rays to indicate their direction of travel. 2.
Ray Optics Simulation - Home - GitHub Pages
https://ricktu288.github.io/ray-optics/
An ideal lens that obeys exactly the thin lens equation (1/p + 1/q = 1/f). The focal length (in pixels) can be set directly. Blocker A line-segment light blocker that absorbes the incident rays. Ruler A ruler from a point for zero and another point. The scale is in pixels. Protractor
Lecture 7: Basics of mirrors, magnifiers, and microscopes
https://ocw.mit.edu/courses/mechanical-engineering/2-71-optics-spring-2009/video-lectures/lecture-7-basics-of-mirrors-magnifiers-and-microscopes/MIT2_71S09_lec07.pdf
Topics: Ray tracing with mirrors; basic optical systems: single lens magnifier, eyepiece, microscope. Instructors : George Barbastathis, Colin …
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