Suppose you are driving a vehicle at a speed of 60km/hr and sound the horn that...

Suppose you are driving a vehicle at a speed of 60km/hr and sound the horn that emits a frequency of 320hz. If the vehicle approaches a wall that causes the sound to be reflected. What will be the new echo frequency received by you inside the car? (You can ignore the interference between the wave back and forth)

A car approaches you at a constant speed, sounding its horn, and you hear a frequency...

A car approaches you at a constant speed, sounding its horn, and you hear a frequency of 40 Hz. After the car goes by, you hear a frequency of 60 Hz. What is the frequency of the sound emitted by the horn? The speed of sound in the air is 343 ms-1.

Problem 4: A bat flies towards a wall and emits a 5000 Hz sound wave. The...

Problem 4: A bat flies towards a wall and emits a 5000 Hz sound wave. The speed of sound in the air is 343 m/s.               A: If the sound pulse takes 7 miliseconds to reflect off the wall and come back, how far from the wall is the bat?               B: If the frequency observed by the bat of the reflected wave is 165 Hz higher, how fast is the bat approaching the wall?

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...

A sound source A with a speed of 29.9 m/s and a reflecting surface B with...

A sound source A with a speed of 29.9 m/s and a reflecting surface B with a speed of 65.8 m/s moves directly towards each other. The source emits a wave frequency of 1.20 x 103 Hz, take the speed of sound in air to be 329 m/s. What is (a) the frequency as perceived by the reflector as the two sources moves towards each other; (b) The frequency as perceived by source A, when the sound wave reflected back...

As you are standing on the pavement, a car approaches you at a speed of 98...

As you are standing on the pavement, a car approaches you at a speed of 98 km/h, sounding its horn at a frequency of 9,213 Hz. Determine the frequency of the sound that you hear in SI units (Hz)

You are on a county road driving at a speed of 28 m/s when you hear...

You are on a county road driving at a speed of 28 m/s when you hear the siren of an oncoming fire engine. As the fire engine approaches you, you hear the frequency of its siren as 2830 Hz, but once it has passed you the frequency becomes 1860 Hz. What is the speed of the fire engine? The speed of sound in air is 343 m/s.

You were driving your car on the airport road on a hot summer day at a...

You were driving your car on the airport road on a hot summer day at a speed of 88 ??/ℎ. You look on the opposite side of the highway and you see a fast Lekhwiya vehicle coming towards you. The Lekhwiya car transmits a siren of 2538 ??. However, when you receive the siren sound and try to measure the frequency, you compare it with the frequency of a tuning fork. As a result, you counted 12 beats every 3...

1. Consider a speaker at some fixed position, emitting sound uniformly in all directions. You are...

1. Consider a speaker at some fixed position, emitting sound uniformly in all directions. You are standing at some distance d from this speaker, holding a sound-intensity measuring device. You then walk 25.0 m in a straight line towards the speaker. At this point you observe that the intensity of the sound has doubled (from the previous location). Determine the distance d. There are no echoes or reflections or interference. 2. You are standing equidistant from four identical jet engines...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing...

1. Which of the following actions will increase the speed of sound in air? (a) decreasing the air temperature (b) increasing the frequency of the sound (c) increasing the air temperature (d) increasing the amplitude of the sound wave (e) reducing the pressure of the air. Why? 2. Suppose you’re on a hot air balloon ride, carrying a buzzer that emits a sound of frequency f. If you accidentally drop the buzzer over the side while the balloon is rising...

Please show all your work. A source of sound is located in a room a distance...

Please show all your work. A source of sound is located in a room a distance “L” from a wall. The room temperature is 72°F. AN observer is located between the source and the wall at 103 cm from the wall. The observer can hear a loud sound at the 3rd harmonic and the sound fades at the 4th harmonic. What is the velocity of sound in the room? What is the frequency at which the observer can hear the...