PHYSICS F./SCI... W/MOD V.II W/KIT
4th Edition
ISBN: 9780134819884
Author: GIANCOLI
Publisher: PEARSON
expand_more
expand_more
format_list_bulleted
Concept explainers
Textbook Question
Chapter 33, Problem 30P
(I) Show that if the lens of Example 33-7 is reversed, the focal length is unchanged.
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solutionStudents have asked these similar questions
(iv) For diagram #iii, suppose the focal length is 5 cm and the object is placed 7 cm from the lens. Find the exact location and magnification of the image. Does this agree with your expectation from the ray diagram?
(II) A lighted candle is placed 36 cm in front of a converging
lens of focal length fi = 13 cm, which in turn is 56 cm in
front of another converging lens of focal length f, = 16 cm
(see Fig. 23–60). (a) Draw a ray diagram and estimate the
location and the relative size of the final image. (b) Calcu-
late the position and relative size of the final image.
fi = 13 cm
2 = 16 cm
FIGURE 23-60
Problem 62.
-36 сm-
-56 сm-
(II) Two plane mirrors meet at a 135° angle,
Fig. 23–52. If light rays strike one mirror
at 34° as shown, at what angle o do
they leave the second mirror?
FIGURE 23-52
34°
Problem 3.
Chapter 33 Solutions
PHYSICS F./SCI... W/MOD V.II W/KIT
Ch. 33.2 - If the leaf (object) of Example 332 is moved...Ch. 33.2 - Figure 3313 shows a converging lens held above...Ch. 33.4 - A Lucite planoconcave lens (sec Fig. 332b) has one...Ch. 33.6 - What power contact lens is needed for an eye to...Ch. 33.8 - A 40 telescope has a 1.2-cm focal length eyepiece....Ch. 33 - Where must the film be placed if a camera lens is...Ch. 33 - A photographer moves closer to his subject and...Ch. 33 - Can a diverging lens form a real image under any...Ch. 33 - Use ray diagrams to show that a real image formed...Ch. 33 - Light rays are said to be reversible. Is this...
Ch. 33 - Can real images be projected on a screen? Can...Ch. 33 - A thin converging lens is moved closer to a nearby...Ch. 33 - Compare the mirror equation with the thin lens...Ch. 33 - A lens is made of a material with an index of...Ch. 33 - Explain how you could have a virtual object.Ch. 33 - A dog with its tail in the air stands facing a...Ch. 33 - A cat with its tail in the air stands facing a...Ch. 33 - The thicker a double convex lens is in the center...Ch. 33 - Does the focal length of a lens depend on the...Ch. 33 - An underwater lens consists of a carefully shaped...Ch. 33 - Consider two converging lenses separated by some...Ch. 33 - Will a nearsighted person who wears corrective...Ch. 33 - You can tell whether people are nearsighted or...Ch. 33 - The human eye is much like a camerayet, when a...Ch. 33 - In attempting to discern distant details, people...Ch. 33 - Is the image formed on the retina of the human eye...Ch. 33 - Reading glasses use converging lenses. A simple...Ch. 33 - Why must a camera lens be moved farther from the...Ch. 33 - Spherical aberration in a thin lens is minimized...Ch. 33 - Prob. 26QCh. 33 - (I) A sharp image is located 373 mm behind a...Ch. 33 - (I) Sunlight is observed to focus at a point 18.5...Ch. 33 - (a) What is the power of a 23.5-cin-focal-length...Ch. 33 - (II) A certain lens focuses an object 1.85m away...Ch. 33 - (II) A 105-mm-focal-length lens is used to focus...Ch. 33 - (II) A stamp collector uses a converging lens with...Ch. 33 - (II) It is desired to magnify reading material by...Ch. 33 - (II) A 8.00-D lens is held 12.5 cm from an ant...Ch. 33 - (II) An object is located 1.50 m from an 8.0-D...Ch. 33 - (II) (a) How far from a 50.0-mm-focal-length lens...Ch. 33 - (II) How far from a converging lens with a focal...Ch. 33 - (II) (a) A 2.80-cm-high insect is 1.30 m from a...Ch. 33 - (II) A bright object and a viewing screen are...Ch. 33 - (II) How far apart are an object and an image...Ch. 33 - (II) Show analytically that the image formed by a...Ch. 33 - (II) In a slide or movie projector, the film acts...Ch. 33 - (III) A bright object is placed on one side of a...Ch. 33 - (III) (a) Show that the lens equation can be...Ch. 33 - (II) A diverging lens with f = 33.5cm is placed...Ch. 33 - (II) Two 25.0-cm-focal-length converging lenses...Ch. 33 - (II) A 34.0-cm-focal-lenglh converging lens is...Ch. 33 - (II) The two converging lenses of Example 335 are...Ch. 33 - (II) A diverging lens with a focal length of 14 cm...Ch. 33 - (II) Two lenses, one converging with focal length...Ch. 33 - (II) A diverging lens is placed next to a...Ch. 33 - (II) A lighted candle is placed 36 cm in from of a...Ch. 33 - (I) A double concave lens has surface radii of...Ch. 33 - (I) Both surfaces of a double convex lens have...Ch. 33 - (I) Show that if the lens of Example 33-7 is...Ch. 33 - (I) A planoconvex lens (Fig. 33-2a) is to have a...Ch. 33 - (II) An object is placed 90.0cm from a glass lens...Ch. 33 - (II) A prescription for a corrective lens calls...Ch. 33 - (I) A properly exposed photograph is taken at f...Ch. 33 - (I) A television camera lens has a 17-cm focal...Ch. 33 - (II) Suppose that a correct exposure is 1250S at f...Ch. 33 - (II) A nature photographer wishes to photograph a...Ch. 33 - (I) A human eyeball is about 2.0 cm long and the...Ch. 33 - (II) A person struggles to read by holding a book...Ch. 33 - (II) Reading glasses of what power are needed for...Ch. 33 - (II) If the nearsighted person in Example 33-13...Ch. 33 - (II) An eye is corrected by a 4.50-D lens, 2.0cm...Ch. 33 - (II) A persons right eye can see objects clearly...Ch. 33 - (II) A person has a far point of 14 cm. What power...Ch. 33 - (II) One lens of a nearsighted persons eyeglasses...Ch. 33 - (II) What is the focal length of the eye lens...Ch. 33 - (II) A nearsighted person has near and far points...Ch. 33 - (II) The closely packed cones in the fovea of the...Ch. 33 - (II) What is the focal length of a magnifying...Ch. 33 - (II) What is the magnification of a lens used with...Ch. 33 - (II) A magnifier is rated at 3.0 for a normal eye...Ch. 33 - (II) Sherlock Holmes is using an...Ch. 33 - (II) A small insect is placed 5.85 cm from a...Ch. 33 - (II) A 3.40-mm-wide holt is viewed with a...Ch. 33 - (II) A magnifying glass with a focal length of...Ch. 33 - (II) A magnifying glass is rated at 3.0 for a...Ch. 33 - (II) A converging lens of focal length = 12 cm is...Ch. 33 - (I) What is the magnification of an astronomical...Ch. 33 - (I) The overall magnification of an astronomical...Ch. 33 - (II) A 7.0 binocular has 3.0-cm-focal-length...Ch. 33 - (II) An astronomical telescope has an objective...Ch. 33 - (II) An astronomical telescope has its two lenses...Ch. 33 - (II) A Galilean telescope adjusted for a relaxed...Ch. 33 - (II) What is the magnifying power of an...Ch. 33 - (II) The Moons image appears to be magnified 120...Ch. 33 - (II) A 120 astronomical telescope is adjusted for...Ch. 33 - (II) An astronomical telescope longer than about...Ch. 33 - (III)A reflecting telescope (Fig. 3338b) has a...Ch. 33 - (III) A 7.5 pair of binoculars has an objective...Ch. 33 - (I) A microscope uses an eyepiece with a focal...Ch. 33 - (I) A 680 microscope uses a 0.40-cm-focal-length...Ch. 33 - (I) A 17-cm-long microscope has an eyepiece with a...Ch. 33 - (II) A microscope has a 13.0 eyepiece and a 58.0...Ch. 33 - (II) Repeat Problem 75 assuming that the final...Ch. 33 - (II) A microscope has a 1.8-cm-focal-length...Ch. 33 - (II) The eyepiece or a compound microscope has a...Ch. 33 - (II) An inexpensive instructional lab microscope...Ch. 33 - (III) Given two 12-cm-focal-length lenses, you...Ch. 33 - (II) A planoconvex lens (Fig. 332a) has one nut...Ch. 33 - (II) An achromatic lens is made of two very thin...Ch. 33 - A 200-mm-focal-lcngth lens can be adjusted so that...Ch. 33 - If a 135-mm telephoto lens is designed to cover...Ch. 33 - For a camera equipped with a 58-mm-focal-length...Ch. 33 - Show that for objects very far away (assume...Ch. 33 - A small object is 25.0 cm from a diverging lens as...Ch. 33 - A converging lens with focal length of 13.0cm is...Ch. 33 - An astronomical telescope has a magnification of...Ch. 33 - (a) Show that if two thin lenses of focal lengths...Ch. 33 - How large is the image of the Sun on film used in...Ch. 33 - Two converging lenses are placed 30.0 cm apart....Ch. 33 - When an object is placed 60.0 cm from a certain...Ch. 33 - Figure 33-49 was taken from the NIST Laboratory...Ch. 33 - A movie star catches a reporter shooting pictures...Ch. 33 - As curly morning passed toward midday, and the...Ch. 33 - A child has a near point of 15 cm. What is the...Ch. 33 - A woman can see clearly with her right eye only...Ch. 33 - What is the magnifying power of a +4.0-D lens used...Ch. 33 - A physicist lost in the mountains tries to make a...Ch. 33 - A 50-year-old man uses +2.5-D lenses to read a...Ch. 33 - An object is moving toward a converging lens of...Ch. 33 - The objective lens and the eyepiece of a telescope...Ch. 33 - Two converging lenses, one with f = 4.0 cm and the...Ch. 33 - Sam purchases +3.50-D eyeglasses which correct his...Ch. 33 - The proper functioning of certain optical devices...Ch. 33 - In a science-fiction novel, an intelligent...Ch. 33 - A telephoto lens system obtains a large...
Additional Science Textbook Solutions
Find more solutions based on key concepts
Can the potential of a non-uniformly charged sphere be the same as that of a point charge? Explain.
College Physics
The pV-diagram of the Carnot cycle.
Sears And Zemansky's University Physics With Modern Physics
Consider the following discussion between two students about the cause of the seasons.
Student 1: I get it. So ...
Lecture- Tutorials for Introductory Astronomy
The rms current in the circuit.
Physics (5th Edition)
A 55-g mouse runs out to the end of the 17-cm-long minute hand of a grandfather clock when the clock reads 10 p...
Essential University Physics: Volume 1 (3rd Edition)
What is pleiotropy?
Conceptual Integrated Science
Knowledge Booster
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.Similar questions
- Suppose a man stands in front of a mm-or as show below. His eyes are 1.65 m above the floor and the top of his head is 0.13 m higher. Find the height above the floor of the top and bottom of the smallest minor in which he can see both the top of his head and his feet. How is this distance related to the man’s height?arrow_forward9 Figure 34-30 shows four thin lenses, all of the same material, with sides that either are flat or have a ra- dius of curvature of magnitude 10 cm. (a) Without written calculation, rank the lenses according to the magnitude of the focal length, greatest first. (6) (0) (d) Figure 34-30 Question 9.arrow_forwardExample 23–16 shows how to use a converging lens tomeasure the focal length of a diverging lens. (a) Why can’tyou measure the focal length of a diverging lens directly?(b) It is said that for this to work, the converging lens mustbe stronger than the diverging lens. What is meant by“stronger,” and why is this statement true?arrow_forward
- (i) Observe the following ray diagram, the position of object and image is shown but the direction of ray is missing. A' 2F, B' On the basis of above ray diagram/information fill in the blanks. a) The position of object AB would have been.arrow_forwardFigure 25–48 was taken from the NIST Laboratory (National Institute of Standards and Technology) in Boulder, CO, 2.0 km from the hiker in the photo. The Sun's image was 15 mm across on the film. Estimate the focal length of the camera lens (actually a telescope). The Sun has diameter 1.4 × 10° km, and it is 1.5 × 10* km away. GURE 25–48 oblem 68.arrow_forwardIn X-ray imaging, to achieve a well-defined small area of X-ray beam, the anode of the X-ray tube is usually bevelled. By assuming that the bevel angle is 15° and the distance between the X-ray source and the patient is 30 cm, (i) Determine the width of actual focal spot needed to achieve the effective focal spot of 1 mm. (ii) Calculate the coverage of the X-ray beamarrow_forward
- (i) State the laws of refraction of light. (ii) Write a relation between the angle of incidence (i), angle of emergence (e), angle of prism (A) and angle of deviation (d) for a ray of light passing through an equilateral prism.arrow_forward(II) Stand up two plane mirrors so they form a 90.0° angle as in Fig. 23–54. When you look into this double mirror, 12 you see yourself as others see you, instead of reversed as in a single mirror. Make a ray diagram to show how this occurs. FIGURE 23-54 Problem 5. 3.arrow_forward(c) Used in its prime focus configuration, the Russian BTA telescope, with a 6.05 m parabolic primary mirror, has a focal length of 24.0 m. If a coma corrector is not employed, calculate the linear diameter of the "useful field" on this telescope, i.e. the diameter on the focal plane within which the coma blur is less than 1 arcsecond.arrow_forward
- For a thin spherical lens, the focal length of red light compared to the focal length of blue light is: O greater the same O lessarrow_forward2 In Fig. 34-26, stick figure O Figure 34-25 Question 1. stands in front of a spherical mirror that is mounted within the boxed re- gion; the central axis through the 20 24 mirror is shown. The four stick fig- A ures Iį to l4 suggest general loca- tions and orientations for the im- L--- ages that might be produced by the mirror. (The figures are only sketched in; neither their heights nor their distances from the mirror are drawn to scale.) (a) Which of the stick figures could not possibly represent images? Of the possible images, (b) which would be due to a concave mirror, (c) which would be due to a convex mirror, (d) which would be virtual, and (e) which would involve negative magnification? Figure 34-26 Questions 2 and 10.arrow_forward(ii) In an experiment, a student is asked to measure the index of refraction of Perspex. Her measurements show that, for an angle of incidence in air of 22°, the angle in Perspex is 14.5°. What will the index of refraction be for the Perspex?arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
- An Introduction to Physical SciencePhysicsISBN:9781305079137Author:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar TorresPublisher:Cengage LearningPhysics for Scientists and Engineers: Foundations...PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage LearningUniversity Physics Volume 3PhysicsISBN:9781938168185Author:William Moebs, Jeff SannyPublisher:OpenStax
An Introduction to Physical Science
Physics
ISBN:9781305079137
Author:James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres
Publisher:Cengage Learning
Physics for Scientists and Engineers: Foundations...
Physics
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Cengage Learning
University Physics Volume 3
Physics
ISBN:9781938168185
Author:William Moebs, Jeff Sanny
Publisher:OpenStax
Convex and Concave Lenses; Author: Manocha Academy;https://www.youtube.com/watch?v=CJ6aB5ULqa0;License: Standard YouTube License, CC-BY