7. M Two radio antennas separated by d = 300 m, as shown in Figure P24.7, simultaneously broadcast iden- tical signals at the same wavelength. A car travels due north along a straight line at position x = 1 000 m from the center point between the antennas, and its radio receives the signals. (a) If the car is at the position of the second maximum after that at point O when it has traveled a distance of y = 400 m northward, what is the wavelength of the signals? (b) How much farther must the car travel from this position to encounter the next minimum in reception? Hint: Do not use the small- angle approximation in this problem. Figure P24.7

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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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7. M Two radio antennas separated by d
shown in Figure P24.7, simultaneously broadcast iden-
tical signals at the same wavelength. A car travels due
north along a straight line at position x = 1 000 m from
the center point between the antennas, and its radio
receives the signals. (a) If the car is at the position of
the second maximum after that at point O when it has
traveled a distance of y = 400 m northward, what is the
wavelength of the signals? (b) How much farther must
the car travel from this position to encounter the next
minimum in reception? Hint: Do not use the small-
angle approximation in this problem.
300 m, as
Figure P24.7
Transcribed Image Text:7. M Two radio antennas separated by d shown in Figure P24.7, simultaneously broadcast iden- tical signals at the same wavelength. A car travels due north along a straight line at position x = 1 000 m from the center point between the antennas, and its radio receives the signals. (a) If the car is at the position of the second maximum after that at point O when it has traveled a distance of y = 400 m northward, what is the wavelength of the signals? (b) How much farther must the car travel from this position to encounter the next minimum in reception? Hint: Do not use the small- angle approximation in this problem. 300 m, as Figure P24.7
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