A police car is moving at 36.5 m/s (81.6 mi/h) behind a speeding car that is goi

ID: 1550764 • Letter: A

Question

A police car is moving at 36.5 m/s (81.6 mi/h) behind a speeding car that is going faster. The speed limit is 29.1 m/s (65.0 mi/h). A police car radar "clocks" the speed of the other car by emitting microwaves with frequency 3.1 1010 Hz and observing the frequency of the reflected wave. The reflected wave, when combined with the outgoing wave, produces beats at a rate of 1440 s-1. How fast is the speeder going? [Hint: First find the frequency "observed" by the speeder. The electrons in the metal car body oscillate and emit the reflected wave with this same frequency. For the reflected wave, the speeder is the source and the police car is the observer.]

Answer is in m/s.

Explanation / Answer

Considering the sign convention : Vs = - Vpolice , Vo = - Vspeeder

The apparent frequency of EM wave as received by the speeder

f’ = f [(V + Vspeeder)/(V + Vpolice)]

.5 *3.00x10e^8m/s * (1440Hz/3.1x10e10Hz)=7.2m/s

total speed=7.2+36.5=43.7m/s

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A police car is moving at 36.5 m/s (81.6 mi/h) behind a speeding car that is goi

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A police car is moving at 36.5 m/s (81.6 mi/h) behind a speeding car that is goi

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