A rocket is moving with a speed of 200 m/s towards a stationary target. While moving,...

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...

A speed boat sounds its horn while moving towards the shore at 44.0 m/s . If...

A speed boat sounds its horn while moving towards the shore at 44.0 m/s . If people on the shore think the horn frequency is 84.0 Hz , what frequency did the speed boat pilot hear? 73.2 Hz 94.8 Hz 74.4 Hz 96.4 Hz

A moving source emits a sound of frequency 600.0-Hz. A stationary listener detects a frequency of...

A moving source emits a sound of frequency 600.0-Hz. A stationary listener detects a frequency of 640.0-Hz. The ambient temperature is 33.0°C. Determine a) the speed of sound at the ambient temperature of 33.0°C. b) the speed of the moving source for the given source and detected frequencies.

Doppler ultrasound is used to measure the speed of blood flow. The reflected sound interferes with...

Doppler ultrasound is used to measure the speed of blood flow. The reflected sound interferes with the emitted sound, producing beats. If the speed of red blood cells is 0.100 m/s, the ultrasound frequency used is 3.80 MHz, and the speed of sound in blood is 1570 m/s, what is the beat frequency? If the speed of the red blood cells is v, the speed of sound in blood is u, the ultrasound source emits waves of frequency f, and...

The siren of a fire engine that is driving northward at 32.0 m/s emits a sound...

The siren of a fire engine that is driving northward at 32.0 m/s emits a sound of frequency 2200 Hz . A truck in front of this fire engine is moving northward at 17.0 m/s . Part A What is the frequency of the siren's sound that the fire engine's driver hears reflected from the back of the truck? Part B What wavelength would this driver measure for these reflected sound waves?

3. 1323 A bat flies towards a moth at 7.3 m/s while the moth is flying...

3. 1323 A bat flies towards a moth at 7.3 m/s while the moth is flying towards the bat at 5.1 m/s. The bat emits a sound wave of 50.4 kHz.        Part Description Answer Save Status A. What is the frequency of the wave detected by the bat after the wave reflects off the moth? (include units with answer) Format Check 10 pts.110% 2% try penalty Hints: 1,0 # tries: 0 B. After enjoying a tasty meal of the...

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 train is moving away from an observer at 31.0 m/s blows a 305 Hz whistle....

A train is moving away from an observer at 31.0 m/s blows a 305 Hz whistle. What frequency is detected by the stationary observer? Assume standard pressure and 20°C for the speed of sound.

An ambulance with a 200-Hz siren is moving at 30.0 m/s. Take the speed of sound...

An ambulance with a 200-Hz siren is moving at 30.0 m/s. Take the speed of sound to be 340 m/s. a) What frequencies are observed by a stationary person standing on the sidewalk as the ambulance approaches and after it passes? b) Is this Doppler shift real or just a sensory illusion?

Doppler Effect: 1. A stationary police officer using a speed “radar detector” sends a signal with...

Doppler Effect: 1. A stationary police officer using a speed “radar detector” sends a signal with a frequency of 100,000 Hz. The speed of sound is 340 m/s. What is the wavelength of the (ultra) sound wave produced by the detector? The sound wave reflects off a vehicle moving toward the officer. How does the frequency of the reflected sound wave (as recorded by the detector) compare to the original sound wave? 2. The light waves from a distance start...