Fundamentals Of Physics
11th Edition
ISBN: 9781119573968
Author: David Halliday
Publisher: WILEY
expand_more
expand_more
format_list_bulleted
Concept explainers
Videos
Textbook Question
Chapter 34, Problem 4P
Figure 34-33 shows an overhead view of a corridor with a plane mirror M mounted at one end. A burglar B sneaks along the corridor directly toward the center of the mirror. If d = 3.0 m, how far from the mirror will she be when the security guard S can first see her in the mirror?
Figure 34-33 Problem 4.
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solution
Students have asked these similar questions
2. A stone is dropped into a pool of water causing ripple to spread out. After 10 s
the circumference of the ripple is 20 m. Calculate the velocity of the wave.
10. Imagine you have a system in which you have 54 grams of ice. You can melt this
ice and then vaporize it all at 0 C. The melting and vaporization are done reversibly
into a balloon held at a pressure of 0.250 bar. Here are some facts about water you
may wish to know. The density of liquid water at 0 C is 1 g/cm³. The density of ice at 0
C is 0.917 g/cm³. The enthalpy of vaporization of liquid water is 2.496 kJ/gram and the
enthalpy of fusion of solid water is 333.55 J/gram.
A. How much energy does the ice absorb as heat when it melts?
B. How much work is involved in melting the ice?
C. What is the total change in energy for melting the ice?
D. What is the enthalpy change for melting the ice?
E. What is the entropy change for melting the ice?
F. What is the change in Helmholtz energy for melting the ice?
G. What is the change in Gibbs energy for melting the ice?
In the figure Q = 5.7 nC and all other quantities are accurate to 2 significant figures. What is the magnitude of the force on the charge Q? (k = 1/4πε 0 = 8.99 × 109 N · m2/C2)
Chapter 34 Solutions
Fundamentals Of Physics
Ch. 34 - Figure 34-25 shows a fish and a fish stalker in...Ch. 34 - In Fig. 34-26, stick figure O stands in front of a...Ch. 34 - Figure 34-27 is an overhead view of a mirror maze...Ch. 34 - A penguin waddles along the central axis of a...Ch. 34 - When a T. rex pursues a jeep in the movie Jurassic...Ch. 34 - An object is placed against the center of a...Ch. 34 - The table details six variations of the basic...Ch. 34 - An object is placed against the center of a...Ch. 34 - Figure 34-30 shows four thin lenses, all of the...Ch. 34 - In Fig. 34-26, stick figure O stands in front of a...
Ch. 34 - Figure 34-31 shows a coordinate system in front of...Ch. 34 - You look through a camera towards an image of a...Ch. 34 - ILW A moth at about eye level is 10 cm in front of...Ch. 34 - In Fig. 34-32, an isotropic point source of light...Ch. 34 - Figure 34-33 shows an overhead view of a corridor...Ch. 34 - SSM WWW Figure 34-34 shows a small lightbulb...Ch. 34 - An object is moved along the central axis of a...Ch. 34 - A concave shaving mirror has a radius of curvature...Ch. 34 - An object is placed against the center of a...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 9 through 16 GO 12 SSM 9, 11, 13 Spherical...Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - 17 through 29 GO 22SSM 23, 29 More mirrors. Object...Ch. 34 - 17 through 29 GO 22 SSM 23, 29 More mirrors....Ch. 34 - GO Figure 34-37 gives the lateral magnification m...Ch. 34 - a A luminous point is moving at speed vo towards a...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - 32 through 38 GO 37, 38 SSM 33, 35 Spherical...Ch. 34 - In Fig. 34-38, a beam of parallel light rays from...Ch. 34 - A glass sphere has radius R = 5.0 cm and index of...Ch. 34 - A lens is made of glass having an index of...Ch. 34 - Figure 34-40 gives the lateral magnification m of...Ch. 34 - A movie camera with a single lens of focal length...Ch. 34 - An object is placed against the center of a thin...Ch. 34 - You produce an image of the Sun on a screen, using...Ch. 34 - An object is placed against the center of a thin...Ch. 34 - SSM WWW A double-convex lens is to be made of...Ch. 34 - An object is moved along the central axis of a...Ch. 34 - SSM An illuminated slide is held 44 cm from a...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 50 through 57 GO 55, 57 SSM 53 Thin lenses. Object...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - 58 through 67 GO 61 SSM 59 Lenses with given...Ch. 34 - In Fig. 34-44, a real inverted image I of an...Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 69 through 79 GO 76, 78 SSM 75, 77 More lenses....Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - 80 through 87 GO 80, 87 SSM WWW 83 Two-lens...Ch. 34 - If the angular magnification of an astronomical...Ch. 34 - SSM In a microscope of the type shown in the Fig....Ch. 34 - Figure 34-46a shows the basic structure of an old...Ch. 34 - SSM Figure 34-47a shows the basic structure of a...Ch. 34 - An object is 10.0 mm from the objective of a...Ch. 34 - Someone with a near point Pn of 25 cm views a...Ch. 34 - An object is placed against the center of a...Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - 95 through 100 GO 95, 96, 99 Three-lens systems....Ch. 34 - SSM The formula 1/p 1/i = 1/f is called the...Ch. 34 - Figure 34-50a is an overhead view of two vertical...Ch. 34 - SSM Two thin lenses of focal lengths f1 and f2 are...Ch. 34 - Two plane mirrors are placed parallel to each...Ch. 34 - In Fig. 34-51, a box is somewhere at the left, on...Ch. 34 - In Fig. 34-52, an object is placed in front of a...Ch. 34 - SSM A fruit fly of height H sits in front of lens...Ch. 34 - You grind the lenses shown in Fig. 34-53 from flat...Ch. 34 - In Fig. 34-54, a fish watcher at point P watches a...Ch. 34 - A goldfish in a spherical fish bowl of radius R is...Ch. 34 - Figure 34-56 shows a beam expander made with two...Ch. 34 - You look down at a coin that lies at the bottom of...Ch. 34 - A pinhole camera has the hole a distance 12 cm...Ch. 34 - Light travels from point A to point B via...Ch. 34 - A point object is 10 cm away from a plane mirror,...Ch. 34 - Show that the distance between an object and its...Ch. 34 - A luminous object and a screen are a fixed...Ch. 34 - An eraser of height 1.0 cm is placed 10.0 cm in...Ch. 34 - A peanut is placed 40 cm in front of a two-lens...Ch. 34 - A coin is placed 20 cm in front of a two-lens...Ch. 34 - An object is 20 cm to the left of a thin diverging...Ch. 34 - In Fig 34-58 a pinecone is at distance p1 = 1.0 m...Ch. 34 - One end of a long glass rod n = 1.5 is a convex...Ch. 34 - A short straight object of length L lies along the...Ch. 34 - Prove that if a plane mirror is rotated through an...Ch. 34 - An object is 30.0 cm from a spherical mirror,...Ch. 34 - A concave mirror has a radius of curvature of 24...Ch. 34 - A pepper seed is placed in front of a lens. The...Ch. 34 - The equation 1/p 1/i = 2/r for spherical mirrors...Ch. 34 - A small cup of green tea is positioned on the...Ch. 34 - A 20-mm-thick layer of water n = 1.33 floats on a...Ch. 34 - A millipede sits 1.0 m in front of the nearest...Ch. 34 - a Show that if the object O in Fig. 34-19c is...Ch. 34 - Isaac Newton, having convinced himself erroneously...Ch. 34 - A narrow beam of parallel light rays is incident...Ch. 34 - A corner reflector, much used in optical,...Ch. 34 - A cheese enchilada is 4.00 cm in front of a...Ch. 34 - A grasshopper hops to a point on the central axis...Ch. 34 - In Fig. 34-60, a sand grain is 3.00 cm from thin...Ch. 34 - Suppose the farthest distance a person can see...Ch. 34 - A simple magnifier of focal length f is placed...
Additional Science Textbook Solutions
Find more solutions based on key concepts
Name the element in the third period (row) of the periodic table with: a. three valence electrons b. a total of...
Introductory Chemistry (6th Edition)
WRITE ABOUT A THEME: INTERACTIONS In Batesian mimicry, a palatable species gains protection by mimicking an unp...
Campbell Biology (11th Edition)
All of the following terms can appropriately describe humans except: a. primary consumer b. autotroph c. hetero...
Human Biology: Concepts and Current Issues (8th Edition)
The ethmoid bone forms which other cranial structures?
Principles of Anatomy and Physiology
Flask A contains yeast cells in glucose-minimal salts broth incubated at 30C with aeration. Flask B contains ye...
Microbiology: An Introduction
Match each of the following items with all the terms it applies to:
Human Physiology: An Integrated Approach (8th Edition)
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
- Now add a fourth charged particle, particle 3, with positive charge q3, fixed in the yz-plane at (0,d2,d2). What is the net force F→ on particle 0 due solely to this charge? Express your answer (a vector) using k, q0, q3, d2, i^, j^, and k^. Include only the force caused by particle 3.arrow_forwardFor a tornadoes and hurricanes, which of the following is most critical? an alert a watch a warning a predictionarrow_forwardWhen a warm front advances up and over a cold front, what is it called? front inversion stationary front cold front occlusion warm front occlusionarrow_forward
- 1) Consider two positively charged particles, one of charge q0 (particle 0) fixed at the origin, and another of charge q1 (particle 1) fixed on the y-axis at (0,d1,0). What is the net force F→ on particle 0 due to particle 1? Express your answer (a vector) using any or all of k, q0, q1, d1, i^, j^, and k^. 2) Now add a third, negatively charged, particle, whose charge is −q2− (particle 2). Particle 2 fixed on the y-axis at position (0,d2,0). What is the new net force on particle 0, from particle 1 and particle 2? Express your answer (a vector) using any or all of k, q0, q1, q2, d1, d2, i^, j^, and k^. 3) Particle 0 experiences a repulsion from particle 1 and an attraction toward particle 2. For certain values of d1 and d2, the repulsion and attraction should balance each other, resulting in no net force. For what ratio d1/d2 is there no net force on particle 0? Express your answer in terms of any or all of the following variables: k, q0, q1, q2.arrow_forwardA 85 turn, 10.0 cm diameter coil rotates at an angular velocity of 8.00 rad/s in a 1.35 T field, starting with the normal of the plane of the coil perpendicular to the field. Assume that the positive max emf is reached first. (a) What (in V) is the peak emf? 7.17 V (b) At what time (in s) is the peak emf first reached? 0.196 S (c) At what time (in s) is the emf first at its most negative? 0.589 x s (d) What is the period (in s) of the AC voltage output? 0.785 Sarrow_forwardA bobsled starts at the top of a track as human runners sprint from rest and then jump into the sled. Assume they reach 40 km/h from rest after covering a distance of 50 m over flat ice. a. How much work do they do on themselves and the sled which they are pushing given the fact that there are two men of combined mass 185 kg and the sled with a mass of 200 kg? (If you haven't seen bobsledding, watch youtube to understand better what's going on.) b. After this start, the team races down the track and descends vertically by 200 m. At the finish line the sled crosses with a speed of 55 m/s. How much energy was lost to drag and friction along the way down after the men were in the sled?arrow_forward
- For what type of force is it not possible to define a potential energy expression?arrow_forward10. Imagine you have a system in which you have 54 grams of ice. You can melt this ice and then vaporize it all at 0 C. The melting and vaporization are done reversibly into a balloon held at a pressure of 0.250 bar. Here are some facts about water you may wish to know. The density of liquid water at 0 C is 1 g/cm³. The density of ice at 0 C is 0.917 g/cm³. The enthalpy of vaporization of liquid water is 2.496 kJ/gram and the enthalpy of fusion of solid water is 333.55 J/gram.arrow_forwardConsider 1 mole of supercooled water at -10°C. Calculate the entropy change of the water when the supercooled water freezes at -10°C and 1 atm. Useful data: Cp (ice) = 38 J mol-1 K-1 Cp (water) 75J mol −1 K -1 Afus H (0°C) 6026 J mol −1 Assume Cp (ice) and Cp (water) to be independent of temperature.arrow_forward
- The molar enthalpy of vaporization of benzene at its normal boiling point (80.09°C) is 30.72 kJ/mol. Assuming that AvapH and AvapS stay constant at their values at 80.09°C, calculate the value of AvapG at 75.0°C, 80.09°C, and 85.0°C. Hint: Remember that the liquid and vapor phases will be in equilibrium at the normal boiling point.arrow_forward3. The entropy of an ideal gas is S = Nkg In V. Entropy is a state function rather than a path function, and in this problem, you will show an example of the entropy change for an ideal gas being the same when you go between the same two states by two different pathways. A. Express ASV = S2 (V2) - S₁(V1), the change in entropy upon changing the volume from V₁to V2, at fixed particle number N and energy, U. B. Express ASN = S₂(N₂) - S₁ (N₁), the change in entropy upon changing the particle number from N₁ to N2, at fixed volume V and energy U. C. Write an expression for the entropy change, AS, for a two-step process (V₁, N₁) → (V2, N₁) → (V2, N₂) in which the volume changes first at fixed particle number, then the particle number changes at fixed volume. Again, assume energy is constant.arrow_forwardPlease don't use Chatgpt will upvote and give handwritten solutionarrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Physics for Scientists and Engineers: Foundations...PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage Learning
Physics for Scientists and EngineersPhysicsISBN:9781337553278Author:Raymond A. Serway, John W. JewettPublisher:Cengage Learning
Physics for Scientists and Engineers with Modern ...PhysicsISBN:9781337553292Author:Raymond A. Serway, John W. JewettPublisher:Cengage Learning
University Physics Volume 3PhysicsISBN:9781938168185Author:William Moebs, Jeff SannyPublisher:OpenStax
Principles of Physics: A Calculus-Based TextPhysicsISBN:9781133104261Author:Raymond A. Serway, John W. JewettPublisher:Cengage Learning
College PhysicsPhysicsISBN:9781305952300Author:Raymond A. Serway, Chris VuillePublisher:Cengage Learning
Physics for Scientists and Engineers: Foundations...
Physics
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Cengage Learning
Physics for Scientists and Engineers
Physics
ISBN:9781337553278
Author:Raymond A. Serway, John W. Jewett
Publisher:Cengage Learning
Physics for Scientists and Engineers with Modern ...
Physics
ISBN:9781337553292
Author:Raymond A. Serway, John W. Jewett
Publisher:Cengage Learning
University Physics Volume 3
Physics
ISBN:9781938168185
Author:William Moebs, Jeff Sanny
Publisher:OpenStax
Principles of Physics: A Calculus-Based Text
Physics
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Cengage Learning
College Physics
Physics
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Cengage Learning
Convex and Concave Lenses; Author: Manocha Academy;https://www.youtube.com/watch?v=CJ6aB5ULqa0;License: Standard YouTube License, CC-BY