EBK PHYSICS FOR SCIENTISTS & ENGINEERS
5th Edition
ISBN: 9780134296074
Author: GIANCOLI
Publisher: VST
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Textbook Question
Chapter 35, Problem 1Q
Radio waves and light are both
Expert Solution & Answer
To determine
Explain the reason for the radio is receiving the signal behind the hill but one cannot see the transmitting antenna.
Answer to Problem 1Q
The size (wavelength) of the radio waves and hill is comparable so, wave is diffracted from the hill and radio receives signals while the size (wavelength) of the visible waves and hill is not comparable so it could not be diffracted and we cannot see antenna.
Explanation of Solution
Electromagnetic waves are the waves consisting of oscillating electric and magnetic fields. There is a electromagnetic spectra consisting of electyromagnetic waves of different wavelengths. Radio and visible waves are one of them.
Radio waves have wavelength ranges from
The slight bending of light from the edge of the object is known as ‘Diffraction’. The light would be diffracted only when the size of the object and the light are comparable to each other.
Conclusion:
Thus, the size (wavelength) of the radio waves and hill is comparable so, wave is diffracted from the hill and radio receives signals while the size (wavelength) of the visible waves and hill is not comparable so it could not be diffracted and we cannot see antenna.
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Students have asked these similar questions
PLEASE help with the experimental setup for this theory because i am so confused.
Part 2 - Geometry and Trigonometry
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A
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Details solution
No chatgpt pls
Chapter 35 Solutions
EBK PHYSICS FOR SCIENTISTS & ENGINEERS
Ch. 35 - Radio waves and light are both electromagnetic...Ch. 35 - Hold one hand close to your eye and focus on a...Ch. 35 - Explain why diffraction patterns are more...Ch. 35 - For diffraction by a single slit, what is the...Ch. 35 - Describe the single-slit diffraction pattern...Ch. 35 - What happens to the diffraction pattern of a...Ch. 35 - In the single-slit diffraction pattern, why does...Ch. 35 - Discuss the similarities, and differences, of...Ch. 35 - Figure 3510 shows a two-slit interference pattern...Ch. 35 - When both diffraction and interference are taken...
Ch. 35 - Does diffraction limit the resolution of images...Ch. 35 - Give at least two advantages for the use of large...Ch. 35 - Atoms have diameters of about 108 cm. Can visible...Ch. 35 - Which color of visible light would give the best...Ch. 35 - Could a diffraction grating just as well be called...Ch. 35 - Suppose light consisting of wavelengths between...Ch. 35 - What is the difference in the interference...Ch. 35 - White light strikes (a) a diffraction grating and...Ch. 35 - (I) If 680-nm light falls on a slit 0.0365 mm...Ch. 35 - (II) (a) For a given wavelength , what is the...Ch. 35 - (II) If you double the width of a single slit, the...Ch. 35 - (II) If a double-slit pattern contains exactly...Ch. 35 - (II) Design a double-slit apparatus so that the...Ch. 35 - (II) Suppose d = D in a double-slit apparatus, so...Ch. 35 - (II) In a double-slit experiment, let d = 5.00D =...Ch. 35 - (I) What is the angular resolution limit (degrees)...Ch. 35 - (II) The nearest neighboring star to the Sun is...Ch. 35 - (II) The normal lens on a 35-mm camera has a focal...Ch. 35 - (I) A source produces first-order lines when...Ch. 35 - (II) A tungstenhalogen bulb emits a continuous...Ch. 35 - (II) Show that the second- and third-order spectra...Ch. 35 - (II) Suppose the angles measured in Problem 40...Ch. 35 - (II) Missing orders occur for a diffraction...Ch. 35 - The Hubble Space Telescope with an objective...
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