PHYSICS: GEOMETRICAL OPTICS
With graphical ray tracing, show that when a real object lies between the center of curvature and the focal length of a concave mirror that the image is real, inverted and magnified.
Please make any point form notes below image for clarity. Not really necessary, but key words are good.
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PHYSICS: GEOMETRICAL OPTICS With graphical ray tracing, show that when a real object lies between the...
Perform a ray tracing on the object and converging mirror in the figure below. Use that ray tracing to draw the image in its proper location. Is the image REAL VIRTUAL UPRIGHT INVERTED MAGNIFIED REDUCED
PHYS 203 Name: Ray Tracing Name: Work in pairs. Turn in one copy per pair Part A: Ray Tracing (18 pts) For each of the following situations, draw the three principle rays and find the image. Measure, f.p. q. h and h and label them below (1 "large box" 1.0 cm). Indicate whether the image is: - real or virtual upright or inverted - enlarged or reduced - in front or behind the mirrorlens No pens allowed. Draw this in...
Physics 2BG Name: Due Date: Ray Tracing Activity For each situation below, draw the three primary rays and the image. State if the image is real or virtual, upright or inverted, and if it is larger or smaller than the object. I. Convex Lens a. b. C. 2 Concave Lens b. c. 3. Concave Mirror b. C.
physics concept maps concave mirror: make a concept map linking the following phrases: spherical concave mirror image reduced the point of intersection of the extended reflected rays distance between image and mirror in size real image radius of curvature of the mirror m-h_i/h_o virtual image image f-r/2 magnified height of object the point of intersection of the reflected rays focal length of the mirror in front of the mirror (reflecting side) behind the mirror (non-reflecting side) image distance between d...
Name: Lab: Lens Ray Tracing Exercise Physics 182 Date:_ Ray Tracing for Lenses Predict the various values for the image distance, image height and magnification as well as describe the image type, image orientation and image size for the conditions given at the top of both tables. Use the thin lens equation and the magnification equation. Part Thin Lens Equation: = Magnification Equation: m Parti beton preoah ger ranlonch of the object ditance loatons aven in the tables 1. The...
CHAPTER 24 GEOMETRIC OPTICS As an object moves from just inside the focal point of a sonverzing lens to just gutside it, he image goes from andto and A. large; inverted, large; upright. B. large; upright; large; inverted. C. small: inverted; small; upright. D. small: upright; small; inverted. 7. 8. When the reflection of an object is seen in a concave mirror, the image is A. Virtual and erected. B. Real and inverted. C. Virtual and inverted. D. Real and...
A biconvex lens sits between an object and a concave spherical mirror. The lens has a focal length f and the mirror has a radius of curvature of R. The object is a distance 2f from the lens and the distance from the lens to the mirror is 2f + R. The object is illuminated and light scattered from the object shines through the lens to the mirror, reflects, travels back through the lens, and forms a final image. (a)...
Optics Procedure Needed HOL lab kit equipment:magnifier, ruler Student supplied equipment index card,Styrofoam cups or modeling clay,paper clips,tape,colored pens or pencils,digital camera.Finding the Focal Length of a Lens 1.This part of the lab requires a dimly-lit room with an outside-facing window producing an unobstructed view of a distant object. Best results are obtained on a sunny day. 2.You need something to hold both your magnifier and a screen to project an image on.One possibility is to insert your magnifier into...
please help with all questions pictured if possible please ! 6. An object is positioned outside the focal point of a thin convex lens. A student uses the graphical method to predict the location of the image of the arrow. As shown in the diagram, she draws principal rays to the lens only. When the rays are completed, which will pass through the point Q, which is the tip of the image of the arrow? (1 point) Rays 1 and...
Could someone please help complet Table 1 and Table 2 Lab 12 Concave and Convex Lenses PHYS 1110L Conceptual Physics Lab Name: Date: Results:-- -(90 pts max) OBJECTIVES To demonstrate the formation of images from convex and concave lenses. To identify the type of image formed by convex and concave lenses. - To confirm the lens equations. PART 1 CONVEX LENS 1. Open GOOGLE CHROME or other compatible browser and DISABLE all BROWSER POP-UP BLOCKERS 2. Go to PhET Simulations...