Pearson eText for College Physics: Expl...2nd EditionEugenia Etkina, Gorazd Planinsic Publisher: PEARSON+ISBN: 9780137443000
Pearson eText for College Physics: Expl...
Solutions for Pearson eText for College Physics: Explore and Apply -- Instant Access (Pearson+)
Problem 1RQ:
Review Question 24.1 Explain why we observe multiple bright bands of light on a screen after light...Problem 3RQ:
Review Question 24.3 How do the locations of the maxima change when we add more slits of the same...Problem 4RQ:
Review Question 24.4 If we look through a grating at a source of white light and then look at a thin...Problem 5RQ:
Review Question 24.5 Equation (24.6), wsinm=m,wherem=1,2,3... describes the angles at which one can...Problem 6RQ:
Review Question 24.6 Stars are so far away that they can be considered as point sources Why then do...Problem 1MCQ:
Multiple Choice Questions
1. You shine a flashlight on two wide slits cut in cardboard What do you...Problem 2MCQ:
Multiple Choice Questions When you shine a very narrow beam of white light on a grating in a dark...Problem 4MCQ:
Multiple Choice Questions If you add a third slit to two slits, with the same slit separation, and...Problem 5MCQ:
Multiple Choice Questions
5. Why don’t two flashlights about 1 m apart shining on a wall produce an...Problem 6MCQ:
Multiple Choice Questions You shine a laser beam through a grating with a known number of slits per...Problem 7MCQ:
Multiple Choice Questions
7. What does the resolution limit of an optical system depend on? Choose...Problem 9MCQ:
Multiple Choice Questions You shine a green laser beam (=530nm) on a grating and observe seven...Problem 10CQ:
10. Describe a double-slit interference experiment for sound waves using one or more speakers,...Problem 11CQ:
You are investigating a pattern produced on a screen by laser light passing through two narrow...Problem 12CQ:
12. Give examples of phenomena that can be explained by a particle-bullet model of light How can a...Problem 13CQ:
13. Give examples of phenomena that cannot be explained by a particle-bullet model of light. How can...Problem 15CQ:
15. Draw a point-like source of light. What is the shape of wave fronts leaving that point, assuming...Problem 16CQ:
Draw two coherent light sources next to each other. What will you see if you place light-sensitive...Problem 17CQ:
17. Use the wave front representation to explain what happens to the interference pattern produced...Problem 18CQ:
18. Use the wave front representation to explain what happens to the interference pattern produced...Problem 19CQ:
Compare the interference pattern produced by two coherent light sources in air with the case when...Problem 20CQ:
Draw 10 coherent point-like sources of light placed along a straight line. Construct a wave front...Problem 21CQ:
If you see green light of 520-nm wavelength when looking at the part of a soap bubble that is...Problem 22CQ:
22. Imagine that you have a very thin uniform oil film on the surface of water. The thickness of oil...Problem 23CQ:
(a) Draw a picture of what you will see on a screen if you shine a red laser beam through a very...Problem 26CQ:
26 Astronomers often called the resolution limit described by Eq. (24.8) a theoretical resolution...Problem 1P:
24.1 and 24.2 Youngs double-slit experiment and Index of refraction, light speed, and wave coherence...Problem 2P:
24.1 and 24.2 Youngs double-slit experiment and Index of refraction, light speed, and wave...Problem 3P:
24.1 and 24.2 Young’s double-slit experiment and Index of refraction, light speed, and wave...Problem 4P:
24.1 and 24.2 Youngs double-slit experiment and Index of refraction, light speed, and wave coherence...Problem 5P:
24.1 and 24.2 Young’s double-slit experiment and Index of refraction, light speed, and wave...Problem 7P:
24.1 and 24.2 Youngs double-slit experiment and Index of refraction, light speed, and wave coherence...Problem 8P:
24.1 and 24.2 Youngs double-slit experiment and Index of refraction, light speed, and wave coherence...Problem 10P:
Gratings: an application of interference Light of wavelength 520 nm passes through a grating with...Problem 11P:
24.3 Gratings: an application of interference Hydrogen light grating deflection Light of wavelength...Problem 12P:
24.3 Gratings: an application of interference
12. * Purchase a grating How many lines per centimeter...Problem 13P:
Gratings: an application of interference Only half a grating You cover the left side of a grating...Problem 15P:
24.3 Gratings: an application of interference Laser light on grating 1 The 6.30 mm light from a...Problem 16P:
24.3 Gratings: an application of interference Laser light on grating 2 Light of wavelength 630 nm...Problem 18P:
24.3 Gratings: an application of interference
18. * EST You shine a green laser beam on a grating...Problem 20P:
24.4 Thin-film interference
20. * Representing thin-film interference (a) Draw a ray diagram for a...Problem 21P:
24.4 Thin-film interference
21. * Oil film on water A thin film of vegetable oil (n = 1.45) is...Problem 22P:
24.4 Thin-film interference
22. * Soap bubble 1 You look at a soap bubble film perpendicular to...Problem 23P:
24.4 Thin-film interference * Soap bubble 2 soap bubble of refractive index 1.40 appears blue-green...Problem 24P:
24.4 Thin-film interference
24. * Thin-film coated lens A lens coated with a thin layer of material...Problem 25P:
Thin-film interference * Thin-film coated glass plate A film of transparent material 120 nm thick...Problem 26P:
24.4 Thin-film interference
26. Two flat glass surfaces are separated by a 150-nm gap of air. (a)...Problem 29P:
24.5 Diffraction of light * Explain diffraction Draw a ray diagram and show path length differences...Problem 30P:
24.5 Diffraction of light * How did we derive it? Explain how we derived the equation for the first...Problem 31P:
24.5 Diffraction of light
31. * Explain a white light diffraction pattern White light passing...Problem 32P:
24.5 Diffraction of light Light of wavelength 630 nm is incident on a long, narrow slit. Determine...Problem 33P:
24.5 Diffraction of light * Light of wavelength of 430 nm is incident on a long, narrow slit of...Problem 34P:
24.5 Diffraction of light * Sound diffraction through doorway Sound of frequency 440 Hz passes...Problem 35P:
24.5 Diffraction of light * Light of wavelength 624 nm passes through a single slit and then strikes...Problem 37P:
24.6 Resolving power
37. Resolution of telescope A large telescope has a 3.00-m-radius mirror. What...Problem 38P:
Resolving power * Laser light of wavelength 630 nm passes through a tiny hole. The angular...Problem 39P:
Resolving power * Size of small bead Infrared radiation of wavelength 1020 nm passes a dark, round...Problem 40P:
Resolving power * Resolution of telescope How will the resolution limit of a telescope change if you...Problem 41P:
Resolving power * Detecting visual binary stars Struve 2725 is a double-star system with a visual...Problem 43P:
24.6 Resolving power
43 * Draw a graphical representation of Rayleigh's criterion Explain how this...Problem 44P:
24.7 Skills for applying the wave model of light
44. * Red light from a helium-neon gas laser has a...Problem 46P:
24.7 Skills for applying the wave model of light * Red light of wavelength 630 nm is incident on a...Problem 47P:
24.7 Skills for applying the wave model of light * Monochromatic light passes through a pair of...Problem 51P:
24.7 Skills for applying the wave model of light * EST Morpho butterfly reflection grating wings A...Problem 52P:
Skills for applying the wave model of light * Ratio reasoning Laser monochromatic light is used to...Problem 53P:
24.7 Skills for applying the wave model of light * Soap bubble interference Light of 690-nm...Problem 54P:
24.7 Skills for applying the wave model of light * Oil film on water A film of oil with refractive...Problem 55P:
24.7 Skills for applying the wave model of light
55. Babinet’s principle Babinet's principle states...Problem 56P:
24.7 Skills for applying the wave model of light * Diffraction from a loudspeaker The opening of a...Problem 57P:
24.7 Skills for applying the wave model of light * The angular deflection of the 1st order bright...Problem 58P:
24.7 Skills for applying the wave model of light
58. * EST Diffraction of sound from the mouth (a)...Problem 59P:
24.7 Skills for applying the wave model of light
59. Determine body cell size Light of 630 nm...Problem 60P:
24.7 Skills for applying the wave model of light * EST A sound of frequency 1000 Hz passes a...Problem 61P:
24.7 Skills for applying the wave model of light * BIO Ability of a bat to detect small objects Bats...Problem 63GP:
* Monochromatic light passes through two slits and then strikes a screen. The distance separating...Problem 64GP:
64. Sound from speakers Two stereo speakers separated by a distance of 0.8 m play the same musical...Problem 66GP:
66. Diffraction of water waves entering a harbor The wavelength of water waves entering a harbor is...Problem 68GP:
** Variable thickness wedge A wedge of glass of refractive index 1.64 has a silver coating on the...Problem 70GP:
Looking at Moon rocks You have a home telescope with a 3.0-cm objective lens. Determine the closest...Problem 71GP:
* BIO EST Diffraction-limited resolving power of the eye You look at closely spaced lines on a wall...Problem 72GP:
72. * Resolving sunspots You are looking at sunspots. They usually appear in pairs on the surface...Problem 73GP:
s Mare Imbrium The outermost ring of mountains surrounding the Mare Imbrium on the Moon has a...Problem 74GP:
* Can you see atoms with a light-based microscope? Explain how you can use your knowledge of the...Problem 75GP:
* Detecting insects by diffraction of sound A biologist builds a device to detect and measure the...Problem 76RPP:
BIO What is 20/20 vision? Vision is often measured using the Snellen eye chart, devised by Dutch...Problem 77RPP:
BIO What is 20/20 vision? Vision is often measured using the Snellen eye chart, devised by Dutch...Problem 78RPP:
BIO What is 20/20 vision? Vision is often measured using the Snellen eye chart, devised by Dutch...Problem 79RPP:
BIO What is 20/20 vision? Vision is often measured using the Snellen eye chart, devised by Dutch...Problem 80RPP:
BIO What is 20/20 vision? Vision is often measured using the Snellen eye chart, devised by Dutch...Problem 81RPP:
Thin-film window coatings for energy conservation and comfort Thin-film coatings are applied to...Problem 82RPP:
Thin-film window coatings for energy conservation and comfort Thin-film coatings are applied to...Problem 83RPP:
Thin-film window coatings for energy conservation and comfort Thin-film coatings are applied to...Browse All Chapters of This Textbook
Chapter 2 - Kinematics: Motion In One DimensionChapter 3 - Newtonian MechanicsChapter 4 - Applying Newton’s LawsChapter 5 - Circular MotionChapter 6 - Impulse And Linear MomentumChapter 7 - Work And EnergyChapter 8 - Extended Bodies At RestChapter 9 - Rotational MotionChapter 10 - Vibrational MotionChapter 11 - Mechanical Waves
Chapter 12 - GasesChapter 13 - Static FluidsChapter 14 - Fluids In MotionChapter 15 - First Law Of ThermodynamicsChapter 16 - Second Law Of ThermodynamicsChapter 17 - Electric Charge, Force, And EnergyChapter 18 - The Electric FieldChapter 19 - Dc CircuitsChapter 20 - MagnetismChapter 21 - Electromagnetic InductionChapter 22 - Reflection And RefractionChapter 23 - Mirrors And LensesChapter 24 - Wave OpticsChapter 25 - Electromagnetic WavesChapter 26 - Special RelativityChapter 27 - Quantum OpticsChapter 28 - Atomic PhysicsChapter 29 - Nuclear PhysicsChapter 30 - Particle Physics
Sample Solutions for this Textbook
We offer sample solutions for Pearson eText for College Physics: Explore and Apply -- Instant Access (Pearson+) homework problems. See examples below:
Chapter 2, Problem 1RQChapter 3, Problem 1RQChapter 4, Problem 1RQChapter 5, Problem 1RQChapter 6, Problem 1RQChapter 7, Problem 1RQIntroduction: Center of mass is a point where the complete mass of any object is said to be...Chapter 9, Problem 1RQChapter 10, Problem 1RQ
Chapter 11, Problem 1RQIntroduction: The following mechanisms can be logically constructed to understand the reason behind...Chapter 13, Problem 1RQIntroduction: Bernoulli’s principle states that fluids moving at a faster velocity have lesser...Chapter 15, Problem 1RQIntroduction: Energy of an isolated system, such as the universe always remains constant, as stated...Chapter 17, Problem 1RQChapter 18, Problem 1RQChapter 19, Problem 1RQChapter 20, Problem 1RQChapter 21, Problem 1RQIntroduction: Experimentally, it has been observed that, the projection on the wall will be upside...Chapter 23, Problem 1RQChapter 24, Problem 1RQChapter 25, Problem 1RQChapter 26, Problem 1RQIntroduction: Planck’s hypothesis stated that an accelerated charged particle can radiate an...Introduction: The Rutherford atomic model is also known as the planetary or nuclear model of an...Introduction: Rutherford, in 1899, conducted an experiment in which he set up two parallel metal...Introduction: Beta decay is referred to as the transformation of protons into neutrons and...
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