Two cars traveling with the same speed move directly away from one another. One car sounds...

Two cars traveling with the same speed move directly away from one another. One car sounds...

Two cars traveling with the same speed move directly away from one another. One car sounds a horn whose frequency is 436 HzHz and a person in the other car hears a frequency of 390 HzHz. Part A What is the speed of the cars? the answer is not 20.23

Two cars moving with the same speed are approaching each other from opposite directions. The driver...

Two cars moving with the same speed are approaching each other from opposite directions. The driver of one of the car blows his horn, which emits sound with the frequency of 400 Hz. The driver in the other car hears the frequency of 450 Hz. What is the speed of the cars if the speed of sound is 340 m/s?

At rest, a car’s horn sounds the note of A (440 Hz). The horn is sounded...

At rest, a car’s horn sounds the note of A (440 Hz). The horn is sounded while the car is moving down the street. A bicyclist moving in the same direction as the car hears a frequency of 475 Hz. Knowing that the bicyclist is moving at one fifth the speed of the car, determine the speed of the car and explain whether the cyclist is ahead of or behind the car. The air temperature is 17°C.

A speeder is pulling directly away and increasing his distance from a police car that is...

A speeder is pulling directly away and increasing his distance from a police car that is moving at 25.1 m/s with respect to the ground. The radar gun in the police car emits an electromagnetic wave with a frequency of 6.98×109 Hz. The wave reflects from the speeder's car and returns to the police car, where its frequency is measured to be 312 Hz less than the emitted frequency. Calculate the speeder's speed with respect to the ground.

A speeder is pulling directly away and increasing his distance from a police car that is...

A speeder is pulling directly away and increasing his distance from a police car that is moving at 29 m/s with respect to the ground. The radar gun in the police car emits an electromagnetic wave with a frequency of 7.00 109 Hz. The wave reflects from the speeder's car and returns to the police car, where its frequency is measured to be 326 Hz less than the emitted frequency. Find the speeder's speed with respect to the ground.

1) A car is approaching a reflecting wall. A stationary observer behind the car hears a...

1) A car is approaching a reflecting wall. A stationary observer behind the car hears a sound of frequency 790 Hz from the car horn and a sound of frequency 873 Hz from the wall. (a) How fast is the car traveling? .......... km/h (b) What is the frequency of the car horn? ........... Hz (c) What frequency does the car driver hear reflected from the wall? ............ Hz ------------------------------------------------------------------------------------------------ 2) A bat flying toward an obstacle at 10 m/s...

Two automobiles are equipped with the same single frequency horn. When one is at rest and...

Two automobiles are equipped with the same single frequency horn. When one is at rest and the other is moving toward the first at 18 m/s, the driver at rest hears a beat frequency of 4.5 Hz. What is the frequency (Hz) the horns emit? Assume T = 20 degrees C

A race car is traveling towards you and you hear a sound of frequency 4072 Hz...

A race car is traveling towards you and you hear a sound of frequency 4072 Hz while the car is traveling towards you. Then the car shoots by you and as the car is traveling away from you, you hear a frequency of 2774 Hz. The car is moving at a constant speed during the whole time you hear these two frequencies, what is the speed (in m/s) of the car

A bicyclist is pedaling down a road at 8 m/sec. A car approaches him from behind....

A bicyclist is pedaling down a road at 8 m/sec. A car approaches him from behind. When the car is preparing to pass he sounds his horn. At first the bicyclist hears a frequency of 520 HZ but the sound appears to drop in frequency to 470 HZ after the car passes. a) How fast is the car moving? (v sound = 340 m/sec)(answer to nearest whole number) 10 b) what is the actual frequency of the horn (don't assume...

A car moving away from an intersection of two one-way streets at a speed of 15...

A car moving away from an intersection of two one-way streets at a speed of 15 m/s while a second car approaches the intersection at a speed of 10 m/s. Calculate the rate of change in the distance D between the two cars with time at the instant x = 40 m and y = 30 m.