Tutorials In Introductory Physics: Homework
1st Edition
ISBN: 9780130662453
Author: Lillian C. McDermott, Peter S. Shaffer
Publisher: PEARSON
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Chapter 24.3, Problem 2aTH
To determine
Tosketch:
The rays to complete the given diagram by using the law of reflection:
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Students have asked these similar questions
Two flat mirrors make an angle of 90.0° with each other, as diagrammed below. An incoming ray makes an angle of ? = 45° with the normal of mirror A. Use the law of reflection to determine the angle of reflection from mirror B. ° from the normal line of mirror B.
What is unusual about the incoming light for this arrangement of mirrors?
The ray reflected from the second mirror is never parallel to the incoming ray.The ray reflected from the second mirror is always parallel to the incoming ray. There is no reflected ray.
Please write out equation
Case 1: Object distance d0= infinity. The figure below shows light rays coming from an object located at infinity, in front of a convex lens. Extend the 9 incident rays to the lens, and draw the transmitted rays in the correct direction. Use the figure, DO NOT substitute it with any other figure. Use the line to trace the 9 rays. Don't forget to place the arrow on each transmitted beam. Label each ray with its corresponding name: parallel ray, central ray, and focal ray.
Image characteristics for Case 1: Object distance d0= infinity. Select those that apply:
a) Reduced
b) Real
c) Erect
d) Inverted
e) Equal size
f) Increased
g) Virtual
h) No image is formed
Chapter 24 Solutions
Tutorials In Introductory Physics: Homework
Ch. 24.1 - On the diagram, sketch what you would see on the...Ch. 24.1 - The small bulb is replaced by three longfilament...Ch. 24.1 - The three longfilament bulbs are replaced by a...Ch. 24.1 - Predict the size and shape of the shadow that will...Ch. 24.1 - Is it possible to place the bulb in another...Ch. 24.1 - Prob. 2cTHCh. 24.1 - Prob. 2dTHCh. 24.1 - Prob. 3aTHCh. 24.1 - A student is looking at the building shown at...Ch. 24.1 - Prob. 4aTH
Ch. 24.1 - Suppose that this student were walking through the...Ch. 24.2 - The top view diagrams at right were drawn by a...Ch. 24.2 - Draw a ray diagram to determine the location of...Ch. 24.2 - Describe how you could use a ray diagram to...Ch. 24.2 - A pencil is placed in front of a plane mirror as...Ch. 24.2 - Prob. 3bTHCh. 24.3 - Prob. 1aTHCh. 24.3 - A pin is placed in front of a semicylindrical...Ch. 24.3 - Prob. 1cTHCh. 24.3 - Prob. 2aTHCh. 24.3 - A very small, very bright bulb is placed for from...Ch. 24.4 - The following are top view diagrams of solid...Ch. 24.4 - The following are top view diagrams of solid...Ch. 24.4 - The following are top view diagrams of solid...Ch. 24.4 - The following are top view diagrams of solid...Ch. 24.4 - Prob. 2THCh. 24.4 - Prob. 3aTHCh. 24.4 - Prob. 3bTHCh. 24.4 - Is the image(s) of the nail real or virtual?...Ch. 24.5 - Suppose that the bulb is placed as shown. Using...Ch. 24.5 - Prob. 1bTHCh. 24.5 - Prob. 1cTHCh. 24.5 - Prob. 1dTHCh. 24.5 - Prob. 2aTHCh. 24.5 - Treat the image produced by lens 1 as an object...Ch. 24.5 - Repeat parts a andb for the case in which lens 2...Ch. 24.6 - Reproduced below is a side view diagram of the...Ch. 24.6 - In section III of the tutorial Magnification, you...Ch. 24.6 - Two thin convex lenses and an object are arranged...Ch. 24.6 - Prob. 3bTHCh. 24.6 - Two thin convex lenses and an object are arranged...Ch. 24.6 - Prob. 3dTHCh. 24.6 - Two thin convex lenses and an object are arranged...
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- Need help, please.arrow_forwardThe diagram below shows the situation described in the problem. The focal length of the lens is labeled f; the scale on the optical axis is in centimeters. Draw the three special rays, Ray1, Ray2, and Ray3 as described in the Tactics Box above, and label each ray accordingly. Draw the rays from the tip of the object to the center vertical axis of the lens. Do not draw the refracted rays. Draw the vectors for the incident rays starting at the tip of the object to the center vertical axis of the lens. The location and orientation of the vectors will be graded. Vectors: Ray3 Ray though center of lens Ray2 Ray through near focal point Rayl Ray parallel to axis Unlabeled vector Objectarrow_forwardThe following are top-view diagrams of solid cubes and cylinders. Assume that light travels more slowly through the objects than through the surrounding medium. Each diagram shows a path for a light ray that is not correct. In each case, there is at least one (and possibly more than one) error in each diagram. Identify all the mistakes in the two diagrams and please explain your reasoning. Redraw the correct path for the light ray on each diagram. (a) (b)arrow_forward
- Please continue and explain all symbols. How are related the angle of incidence and the angle of reflection in the reflection of light off a flat, smooth surface? Light that passes into a transparent medium is bent at the boundary and is said to be refracted. What is the angle of refraction?arrow_forwardThe figure below shows a small light source with two rays from the light hitting the top surface of a solid piece of plastic. The path that the light ray on the left follows as it goes through the plastic is also shown. Draw, specifically and precisely, the path the ray on the right follows through the plastic. Explain, based on your findings from previous investigations, how you determined where to draw the path in the plastic for the second ray.arrow_forwardA pencil is inserted from the air () into an unidentified clear liquid at an incident angle with respect to the normal. If the refracted object is measured to be at an angle with respect to the interface, what is the index of refraction of the liquid? See Figure 1. Show work in the box and write your final answer on the line. n2 =?arrow_forward
- A horizontal light ray initially in air (n1 = 1) approaches a prism as shown in the diagram below. The prism is in the shape of a right triangle and has an index of refraction of 1.5 (i.e. n2=1.5). a. Draw the trajectory of the light ray to show how it enters and exits the prism. b. Calculate the angle (with respect to the normal) at which it both enters and exits the prism. Show your work. 60arrow_forwardIf you were to find the focal point of a converging, or concave, mirror, it would be positive and half the radius of curvature. On the diagram below draw the three principal reflected rays from the object (the arrow in this case ;) which will indicate the position (d;), size (hi), orientation (upright or inverted), and nature (real or virtual) of the image formed. Label each value on the diagram and give the actual numerical values according to the symbols used in equations from the "Lenses & Mirrors Notes" document. (The three principal rays for reflection/mirrors are thoroughly described in your text.) d₂ = 10cm f = 6cmarrow_forwardRefer to the figure given below and answer the following: Write your solutions in the space provided a. Calculate the index of refraction of the unknown material. b. What is the speed of light within the unknown material?arrow_forward
- One well-known image of a prism is the following picture a. Given the pattern of light on the far side of the prism, is the index of refraction inside the prism higher or lower than the index of refraction outside the prism? b. List at least one thing that is wrong with this diagram given what we expect the dependence of n on the wavelength of light to be (and assuming the prism is made of a uniform material). c. List at least one thing that is right with this diagram given what we expect the dependence of n on the wavelength of light to be (and assuming the prism is made of a uniform material).arrow_forwardAn image seen through a convex mirror cut from a sphere of radius 20cm is exactly half size of the object. Where must the object and image be located? Support your work with a ray diagram. Hint: Remember that virtual distances are negative when using the mirror equation. Follow grading rubric. Explain answer.arrow_forwardMake a diagram illustrating why an image of the letter F, reflected from a plane mirror, is inverted. (Treat each corner on the F as a source of light. Locate the image for each source to construct the image of the F.) object F mirror 1 image How does the size of the image reflected from a plane mirror relate to the size of the object?arrow_forward
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