Tutorials in Introductory Physics
1st Edition
ISBN: 9780130970695
Author: Peter S. Shaffer, Lillian C. McDermott
Publisher: Addison Wesley
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Chapter 10.5, Problem 3cT
To determine
To determine whether image of bulb would be seen if the screen is removed.
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Consider the compound optical system shown in the diagram, where two thin lenses of focal lengths 7.5 cm (left lens) and 35 cm (right lens) are separated by a distance 25 cm.
If a 2.9 cm tall object is placed as indicated in part (a), and the image formed is 0.74 cm tall, what is the magnification of the first lens?
M1 =
b. Using the information from part (a), calculate the image distance, in centimeters, from the first lens.
di1 =
The provided image shows the steps to find the ray transfer matrix for a thick biconvex lens (n=1.5) with a radius of curvature for the front and back face of 10cm.
If this was a thin lens, then element C of the ABCD matrix would equal -1/f. What thickness t gives you a 10% change in this C value? (List the thickness in cm)
in step 1 why is the image distance -4 cm?
Chapter 10 Solutions
Tutorials in Introductory Physics
Ch. 10.1 - Prob. 1aTCh. 10.1 - Predict how each of the following changes would...Ch. 10.1 - A mask with a circular hole is placed between a...Ch. 10.1 - What do your observations suggest about the path...Ch. 10.1 - Imagine that you held a string of closely spaced...Ch. 10.1 - The mask used in parts C-E is replaced by one that...Ch. 10.1 - Prob. 1gTCh. 10.1 - Predict what you would see on the screen when an...Ch. 10.1 - Predict the size of the lit region on the screen...Ch. 10.1 - Suppose that the bulb were replaced by a long...
Ch. 10.1 - Prob. 2cTCh. 10.1 - Predict what you would see on the screen at the...Ch. 10.1 - Suppose that the light from the top bulb in the...Ch. 10.1 - Predict what you would see on the screen in the...Ch. 10.2 - Close one eye and lean down so that your open eye...Ch. 10.2 - Suppose that you placed your finger behind the...Ch. 10.2 - Prob. 1cTCh. 10.2 - Prob. 1dTCh. 10.2 - Place your head so that you can see the image of...Ch. 10.2 - Move the nail off w the right side of the mirror...Ch. 10.2 - Prob. 3aTCh. 10.2 - Turn the large sheet of paper over (or obtain a...Ch. 10.2 - Remove the mirror and the object nail. For each...Ch. 10.2 - On the diagram at right, draw one ray from the pin...Ch. 10.2 - Prob. 4bTCh. 10.2 - Determine the image location using the method of...Ch. 10.3 - A pin is placed In front of a cylindrical mirror...Ch. 10.3 - Could you use any two rays (even those that do not...Ch. 10.3 - Observers at M and N arc looking at an image of...Ch. 10.3 - Stick a pin into a piece of cardboard and place...Ch. 10.3 - Gradually decrease the angle between the mirrors...Ch. 10.4 - Prob. 1bTCh. 10.4 - Three students are discussing their results from...Ch. 10.4 - For each case shown below, determine and label the...Ch. 10.4 - In each of the previous cases, predict what would...Ch. 10.4 - Prob. 2cTCh. 10.4 - Explain how you can use a screen to determine the...Ch. 10.5 - Look at very distant object through a convex lens....Ch. 10.5 - Consider a point on the distant object that is...Ch. 10.5 - Suppose that you placed a very small bulb at the...Ch. 10.5 - Consider the ray chai is parallel to the principal...Ch. 10.5 - Consider the ray that goes through the focal point...Ch. 10.5 - How can you use these two rays to determine the...Ch. 10.5 - Consider the ray from the easer that strikes the...Ch. 10.5 - Draw the continuation of the two remaining rays...Ch. 10.5 - Prob. 2fTCh. 10.5 - The diagram below shows a small object placed near...Ch. 10.5 - A lens, a bulb, and a screen are arranged as shown...Ch. 10.5 - Obtain the necessary equipment and check your...Ch. 10.5 - Prob. 3cTCh. 10.6 - The diagram at right illustrates what an observer...Ch. 10.6 - Obtain two soda cans and a cardboard tube that has...Ch. 10.6 - Could an observer at each of the labeled points...Ch. 10.6 - Use the above diagram to answer the following...Ch. 10.6 - Obtain convex lens. Use the lens as a magnifying...Ch. 10.6 - Draw a ray diagram that shows how to determine the...Ch. 10.6 - The lateral magnification, m1 , is defined as...Ch. 10.6 - The angular magnification, m , is defined as m= ,...
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- Can you answer part c of problem 1 in the image?arrow_forwardCan you use the formula in the second picture to answer it, please?arrow_forwardIf the radius of curvature of the mirror in diagram A is 15 cm and the object which is 10 cm long is placed 20 cm away from the mirror, then the location of the image is 12 cm and the size of the image is 6 cm. 1. What is the location of the image? (between F and C, at C etc.) 2. What is the orientation of the image? (inverted or upright) 3. What is the size of the image? (reduced, same, bigger) 4. What is the type of the image? (real or virtual)arrow_forward
- PLEASE SHOW HOW TO GET THE CALCULATION FOR THE IMAGE DISTANCE, q and image height hiarrow_forwardA 1.5 cmcm high object is located 30 cmcm from a diverging lens, whose focal length is 11 cmcm . What is the height of the image produced by the lens? You have determined the height of the image using numerical methods and, in so doing, have also determined its position, s′s′s'. Now, use graphical methods to evaluate your results.The diagram below shows the object, a ray (ray 1) parallel to the optic axis of the lens, and a ray (ray 2) proceeding toward the first focal point of the lens. Draw the refracted rays and the image produced by the lens. Make sure you extend the refracted rays sufficiently backward in order to find the image. Keep in mind that principal-ray diagrams must be drawn accurately to give good results!arrow_forwardDo Part B Generate a two ray tracing for one_of the 7cases.... EITHER mirror OR lens. AND ... includethe algebra to support your image location andsize.arrow_forward
- in the image is my assignment. I just want to know if the boxed answer is correct, for problem 1, and whether or not the bolded answers for questions 2 and 3 are correct.arrow_forwardHi Bartleby, would you please help me with problem C in the image attached?arrow_forwardTwo convex lenses which share a common principal axis are separated by a distance which is greater than the sum of their focal lengths, as shown. Part (a) An object is placed a distance do,1=22 cm to the left of lens 1 which has focal length F1=4.2 cm. Ignore the existence of lens 2 for the moment. What is the position of the image, di,1 created by lens 1? Include the sign which is consistent with standard sign conventions. Part (b) Calculate the magnification, M1, of lens 1 for the object as positioned in the previous step. Be certain to include the sign that is consistent with the standard conventions. Part (c) Which statement best describes the image created by lens 1? Part (d) Lens 2 is placed a distance L=20.0cm to the right of lens 1, and the image of lens 1 becomes the object of lens 2. Calculate the object distance, do,2, relative to lens 2. Be certain to include the sign as consistent with the standard sign conventions. Part (e) Which statement best describes the…arrow_forward
- An object is placed 3.4 m in front of a -1.8-m-focal-length (diverging) lens. Where is the image formed, and is it real or virtual? Inverted or upright? Big or small? Sketch the situation, defining all your variables. Include an accurate ray diagram. Please include the ray diagram.arrow_forwardCase 7: Consider the case of an object (draw yourself on the diagram, an arrow erect on the optical axis) located at d0 > 2F'. Draw the following rays in the figure: ray parallel to the optical axis, focal ray, central ray, draw the image of the arrow, indicate in the same figure from where to where di is (image-lens distance). Don't forget to put the direction on each ray, both the incident rays and the transmitted rays. Image characteristics for case 7: object located at d0 > 2F'. Choose the ones that apply: a) Virtual b) Real c) Inverted d) Increased e) No image is formed f) Equal size g) Reduced h) Erect Case 10: Consider the case of an object (draw yourself on the diagram, an arrow erect on the optical axis) located within the focus F', that is do < F'. Draw the following rays in the figure: ray parallel to the optical axis, focal ray, central ray, draw the image of the arrow, indicate in the same figure from where to where di is (image-lens distance). Don't forget to…arrow_forwardThank you so much in advance. The diagram shows a lens with a positive focal length 11 cm. (a) If we place an object at a distance of 25 cm from the lens, where will the resulting image position on the other side of the lens be found? Include units in answer, (b) With the object at 25 cm from the lens, what will the magnification be for the image at this position? (c) If we place an object at a distance of 4 cm from the lens, where will the resulting image position be found? (d) With the object at 4 cm from the lens, what will the magnification be for the image at this position?arrow_forward
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