Answer:
1. Plane mirror form Virtual and erect image is always form and will always be of same size.
2.Convex mirror: Always form virtual and erect image but the size of image is always smaller than size of object.
3.Concave mirror: when the object is anywhere from infinity to focus real and inverted image is formed smaller than the object. At R radius of curvature size of object is same as image and inverted. In concave mirror if object is placed inside the focal length of mirror, in which case the image in virtual, upright, and bigger.
Can you please help my find the magnification, di by ray diagram, and hi by ray...
Convex Mirror (Task 14) (G) do >R Convex Mirror d, by ray diagram- d, using equation (1) Percent difference in d hy by ray diagram M by ray diagram- M using equation (2) Percent difference in M ) do-R-2 Mirror d, by ray diagram d, using equation (1)- Percent difference in d hy by ray diagram M by ray diagram- M using equation (2) Percent difference in M (ii) do-f Convex Mirror do d, by ray diagram- d, using equation...
Ray Diagrams Concave Mirror (Task 13) G) do > R (R-20) Concave Mirror O C d, by ray diagram d, using equation (1) Percent difference in di- h, by ray diagram M by ray diagram- M using equation (2)- Percent difference in M Gi) do- R-2 Minor d, by ray diagram d, using equation (1) Percent difference in d, h by ray diagram M by ray diagram M using equation (2) Percent difference in M 8- (iii) do -f Concave...
Draw the ray tracing and calculate the di and m (magnification) for the following (h can be any height): 1) Convex lens, do = 9cm, f = 5cm 2) Concave lens, do = 15cm, f = -10cm 3) Concave mirror, do = 21cm, f = 5cm
For each of the following problems, you are to a) construct a ray diagram on graph paper to locate and describe the image and b) analytically determine the image location (supplying proof whether the image is real or virtual), image and size magnification (supplying proof whether the image is upright or inverted, and magnified or de-magnified). Be sure to fully label each diagram: p, q, f, O (object), I (image), h, h'. 1. An object is 5.50 cm high and...
Problem #3 A concave mirror with radius R/(>0) and a convex one with radius -R2 are placed on the same horizontal optical axis facing each other with the vertexes at a distance d. A pencil with height h is placed vertically at a distance s
A ray diagram can be used to find the location of an object if you are given the location of its image and the focal length of the mirror. Part A Draw a ray diagram to find the height and position of an object that makes a 1.7-cm-high upright virtual image that appears 8.0 cm behind a convex mirror of focal length 25 cm . Express your answer using two significant figures. p= Part B Express your answer using two...
For each of the following problems, you are to a) construct a ray diagram on graph paper to locate and describe the image and b) analytically determine the image location (supplying proof whether the image is real or virtual), image and size magnification (supplying proof whether the image is upright or inverted, and magnified or de-magnified). Be sure to fully label each diagram: p, q, f, O (object), I (image), h, h'. 1. An object is 4.30 cm high and...
A ray diagram can be used to find the location of an object if you are given the location of its image and the focal length of the mirror. Draw a ray diagram to find the height and position of an object that makes a 2.5-cm-high upright virtual image that appears 9.0 cm behind a convex mirror of focal length 22 cm . p= h=
Can someone help me answer 22 and 23? (Please sketch a ray trace diagram) 22. A 6.5 cm high pencil is placed 12.5 cm in front of Joseph Medina's convex lens that has a focal length of 20.0 cm. a. Where is the image formed? (i.e. what is the image distance?) [205 x 10'] b. What is the image height? [1 x 10'] c. What is the magnification? [2.5 x 10°] d. What is the radius of curvature of the...
questions 1, 2, 3, 4, and 5 with data below. Lenses and Mirrors: Insight into Eyesight- our eyes and car mirrors. Part 1. Measure the object and image distances to find the focal distance and magnification for two convex lenses and 1 convex mirror. Table 12-1a. Measure the object and image distance to find the principal foaal distance and magnification. Lens 1 Object Distance Image DistancePrincipal Fo Magnification Length f(m) M-dvd N/A- 9./2 O.IS O-lo 4 0-4 0.2 o.1o 023...