College Physics
2nd Edition
ISBN: 9780134601823
Author: ETKINA, Eugenia, Planinšič, G. (gorazd), Van Heuvelen, Alan
Publisher: Pearson,
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Textbook Question
Chapter 25, Problem 49GP
& A beam of unpolarized light of intensity I0 is incident on an ideal pair of crossed (perpendicular) polarizers. You insert a third ideal polarizer between the two polarizers, with its polarizing axis at an angle
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An unpolarized beam of light with an intensity of 5000 W/m2 is incident on two ideal polarizing sheets. If the emerging light has an intensity 0.200 times the original intensity of the incident beam, what is the angle between the two polarizers?
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Chapter 25 Solutions
College Physics
Ch. 25 - Review Question 25.1 What is the difference...Ch. 25 - Review Question 25.2 What needs to happen to...Ch. 25 - Review Question 25.3 How are GPS and radar...Ch. 25 - Review Question 25.4 If the frequency of one...Ch. 25 - Review Question 25.5 Electromagnetic waves are...Ch. 25 - Review Question 25.6 Explain why polarizing...Ch. 25 - Multiple Choice Questions The fact that light can...Ch. 25 - Multiple Choice Questions What does a beam of...Ch. 25 - Multiple Choice Questions What does Faraday's law...Ch. 25 - Multiple Choice Questions
4. Maxwell's hypothesis...
Ch. 25 - Multiple Choice Questions What does a simple...Ch. 25 - Multiple Choice Questions An electrically charged...Ch. 25 - Prob. 7MCQCh. 25 - Multiple Choice Questions If the amplitude of an E...Ch. 25 - Multiple Choice Questions
9. You notice that...Ch. 25 - Multiple Choice Questions You have two green...Ch. 25 - Prob. 11CQCh. 25 - Conceptual Questions What are two models that...Ch. 25 - Conceptual Questions
13. Summarize Maxwell's...Ch. 25 - Conceptual Questions What testable predictions...Ch. 25 - Conceptual Questions
15. Describe the conditions...Ch. 25 - Conceptual questions
16. Explain how radar works...Ch. 25 - Conceptual Questions
17. What determines the...Ch. 25 - Conceptual Questions How was the hypothesis that...Ch. 25 - Conceptual Questions
19. What is the difference...Ch. 25 - Conceptual Questions
20. How do polarized glasses...Ch. 25 - Conceptual Questions You bought a pair of glasses...Ch. 25 - Conceptual Questions Why. when we use polarized...Ch. 25 - Conceptual Questions 23 How does a polarizer for...Ch. 25 - Conceptual Questions
24. What is an LCD and how...Ch. 25 - Prob. 25CQCh. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - Prob. 8PCh. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.1 and 25.2 Polarization of waves and Discovery...Ch. 25 - 25.3 Applications of electromagnetic waves 11 EST...Ch. 25 - 25.3 Applications of electromagnetic waves
12.*...Ch. 25 - 25.3 Applications of electromagnetic waves
13. *...Ch. 25 - 25.3 Applications of electromagnetic waves *...Ch. 25 - 25.3 Applications of electromagnetic waves * TV...Ch. 25 - 25.3 Applications of electromagnetic waves **...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - Prob. 18PCh. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - Prob. 25PCh. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - 25.4 and 25.5 Frequency, wavelength, and the...Ch. 25 - Prob. 29PCh. 25 - 25.6 Polarization and light reflection
33. * An...Ch. 25 - 25.6 Polarization and light reflection * BIO...Ch. 25 - 25.6 Polarization and light reflection
35. * Two...Ch. 25 - 25.6 Polarization and light reflection * Light...Ch. 25 - Polarization and light reflection 37 * Light...Ch. 25 - 25.6 Polarization and light reflection
38.*...Ch. 25 - 25.6 Polarization and light reflection
40.* A beam...Ch. 25 - Prob. 41GPCh. 25 - * BIO EST Human vision power sensitivity A rod in...Ch. 25 - Prob. 44GPCh. 25 - Prob. 45GPCh. 25 - s experiment (described in Problem 25.45) the...Ch. 25 - * A sinusoidal electromagnetic wave in air has a...Ch. 25 - 48.* EST A microwave oven produces electromagnetic...Ch. 25 - with respect to the axis of the first polarizer....Ch. 25 - BIO Amazing honeybees The survival of a bee colony...Ch. 25 - BIO Amazing honeybees The survival of a bee...Ch. 25 - BIO Amazing honeybees The survival of a bee colony...Ch. 25 - BIO Amazing honeybees The survival of a bee colony...Ch. 25 - BIO Amazing honeybees The survival of a bee colony...Ch. 25 - Incandescent lightbulbs—soon to disappear ...Ch. 25 - BIO Amazing honeybees The survival of a bee colony...Ch. 25 - Incandescent lightbulbssoon to disappear Australia...Ch. 25 - Incandescent lightbulbs—soon to disappear ...Ch. 25 - Incandescent lightbulbs—soon to disappear...
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- In Figure P37.52, suppose the transmission axes of the left and right polarizing disks are perpendicular to each other. Also, let the center disk be rotated on the common axis with an angular speed . Show that if unpolarized light is incident on the left disk with an intensity Imax, the intensity of the beam emerging from the right disk is I=116Imax(1cos4t) This result means that the intensity of the emerging beam is modulated at a rate four times the rate of rotation of the center disk. Suggestion: Use the trigonometric identities cos2=12(1+cos2) and sin2=12(1cos2). Figure P37.52arrow_forwardA linearly polarized microwave of wavelength 1.50 cm is directed along the positive x axis. The electric field vector has a maximum value of 175 V/m and vibrates in the xy plane. Assuming the magnetic field component of the wave can be written in the form B = Bmax sin (kx t), give values for (a) Bmax, (b) k, and (c) . (d) Determine in which plane the magnetic field vector vibrates. (e) Calculate the average value of the Poynting vector for this wave. (f) If this wave were directed at normal incidence onto a perfectly reflecting sheet, what radiation pressure would it exert? (g) What acceleration would be imparted to a 500-g sheet (perfectly reflecting and at normal incidence) with dimensions of 1.00 m 0.750 m?arrow_forwardIf a polarizing filter reduces the intensity of polarized light to 50.0% of its original value, by how much are the electric and magnetic fields reduced?arrow_forward
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