5. Image formation in mirrors and the mirror equation: An object is placed 2 cm in front of a concave mirror with a focal length of 4 cm. Describe and determine the distance of the image from the mirror. Show your solution graphically and mathematically using the mirror equation. (Use a bond paper for your answer). 6. Image formation in lenses and the lens equation: The distance of an object in front of a diverging lens is 8 cm. If the focus of the lens is 4 cm, what is the distance of the image from the lens? Describe the image. Show your solution graphically and mathematically using the lens equation. (Use the back page of your answer sheet in number 5).

5. Image formation in mirrors and the mirror equation: An object is placed 2 cm in front of a concave mirror with a focal length of 4 cm. Describe and determine the distance of the image from the mirror. Show your solution graphically and mathematically using the mirror equation. (Use a bond paper for your answer). 6. Image formation in lenses and the lens equation: The distance of an object in front of a diverging lens is 8 cm. If the focus of the lens is 4 cm, what is the distance of the image from the lens? Describe the image. Show your solution graphically and mathematically using the lens equation. (Use the back page of your answer sheet in number 5).

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter37: Reflection And Images Formed By Reflection

Section: Chapter Questions

Problem 46PQ

See similar textbooks

Similar questions

What eye defect is myopia? Describe with a neat diagram how this defect of vision can be corrected by using a suitable lens.
Describe the formation of images by using different types of lenses?
A magnifying glass makes objects look bigger. Describe how a magnifying glass works. Where is the object? Where is the image? Is the image upright or inverted? Real or virtual? Briefly explain your answers in terms of what you know about lenses and ray tracing.
Construct 3 scaled ray diagrams using mirrors with an 8.0 cm radius of curvature. Clearly label each diagram identifying the radius of curvature, the focal point, the object and the image formed. 1) A real image with a concave mirror.2) A virtual image with a concave mirror.3) A virtual image with a convex mirror.
ing as scale of 10cm:1cm, draw a 10cm high object (represented by an arrow) 60 cm in front of a concave mirror whose focal length is 25 cm. Draw a straight line from the tip of the arrow parallel to the axis of the mirror reflected through the focal point of the mirror.Draw another ray from the tip of the arrow through the focal point and reflected from the mirror.Measure the height of the image and its distance from the mirror.State the type of image. Record your data in Table A.Repeat steps 2-5 using varied object distances from the mirror
The image to the left shows several different optical effects, including reflection, refraction, and image formation. Through how many different media does the light from the steel rod travel before it enters your eye? Define diffuse reflection, and tell what its role is in human vision. Define speculator reflection and point out an example of speculator reflection in the graphic. In what ways are the image of the rod distorted by the water, the air, and the curved surface of the glass? In terms of Snell's law, explain why. Is the distortion of the image the same in the vertical direction as in the horizontal direction? Explain why in terms of the curvature of the glass.
1. )What is the magnification if the image size is 5 cm and the size of the real object is 0.2 mm 2.) What is the magnification if the image size is 0.3 cm and the size of real object is 0.5mm
The process of how images are formed in a camera is similar to that of our own on eyes. What do you think is the difference between a camera and the human eye in terms of the process of image formation?
Ray Diagrams - Converging Lens A certain converging lens has a focal length of 42.0 cm. If the object is 48 cm high and is situated 137 cm in front of the converging lens, determine the following using the mirror and magnification equations: (a) Image distance (b) Magnification of the image (c) Is the image real or virtual, upright or inverted, larger or smaller. (d) Sketch the Ray Diagram.
Ray Diagrams- Concave Mirror A certain concave, spherical mirror has a focal length of 53.0 cm. If the object is 42 cm high and is situated 155 cm in front of the concave mirror, determine the following using the mirror and magnification equations: (a) Image distance (b) Magnification of the image (c) Is the image real or virtual, upright or inverted, larger or smaller. (d) provide a rough sketch of the diagram
What are the differences between real and virtual images? How can you tell (by looking) whether an image formed by a single lens or mirror is real or virtual?
By using more than one flat mirror, construct a ray diagram showing how to create an inverted image.