Using ray tracing, find the point where ray R refracted by lens L hits screen S....
LAB 8: GEOMETRICAL OPTUS: RAY TRACING PART 1 REFRACTION NORMAL FOR THE OPPOSITE PLANE REFRACTED RAY INSTRUCTIONS * PRINT this sheet. * Using a protractor, measure the angle of incidence is the angle of refraction & for the incident plane * Find the index of refraction of the block na sini Sin * Repeat for the opposite face A NORMAL FOR THE TROCIDENT PLANE INCIDENT RAY LIGHT SOURCE LAG 8: GEOMETRICAL OPIS: RAY TRONG PART I: CONVEX LENSE INSTRUCTIONS Print...
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...
A convex mirror with a focal length of -3m is sitting 5m from a bookshelf. a. Draw a ray tracing diagram to find where the image is. b. Use the mirror equation to check your result and to find where the image will be if the bookshelf is 2m away. c. Repeat a and b with a converging lens with a focal length of 4m.
Using ray tracing and the Lens Equation for all four problems, draw the location and size of the image for each blue arrow object. The focal distance for all problems is 0.10 m. The object distances are as shown. Calculate the magnification for each problem also.
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...
2 Find the final image and total magnification by accurate ray tracing and by calculation. A diverging lens Llwith focal point F1 is to the left of a converging lens L2 of focal point F2. An arrow to the left of L1 is being observed through the two lenses. a Draw an accurate ray diagram to find the image of the arrow formed by the two-lens system. Use a ruler. Be careful. Label your first image and the final (second)...
2 Find the final image and total magnification by accurate ray tracing and by calculation. A diverging lens Llwith focal point F1 is to the left of a converging lens L2 of focal point F2. An arrow to the left of Ll is being observed through the two lenses. a Draw an accurate ray diagram to find the image of the arrow formed by the two-lens system. Use a ruler. Be careful. Label your first image and the final (second)...
lens 1 @ 56 cm
lens 2 @ 74.8cm
screen @ 77.5 cm
size of image 1.5 x 1.5 cm and is inverted
what would be a ray diagram dor this set ? (nswer questjon #4
pls
focal length of lens 1 =15.55cm
focal lengh of lens 2= 31.04 cm
is removed. It is as if there is a light source where the screen used to be that produces light, ie, a new "object". In the later parts of the...
Problem 1: Ray tracing with a converging lens A 17 cm high object is located 50 cm away from a converging lens with a focal length of 30 cm. The drawing below is to scale (but is not necessarily at a scale of 1:1). A. Draw a ray diagram to find the image, including the height and orientation of the image: you only need to draw 2 of the special rays, but you can draw more if you'd like. Use...
1. The distance from the center of a lens to the location where parallel rays converge or appear to converge is called the length. convergence O meeting O focal O None of the above 2. When incoming rays are the focal point and the image point are the same. O parallel O from a nearby object O passing through the near side focal point O None of the above 3. A(n) image will not appear on a screen placed at...