Suppose that sound is emitted uniformly in all directions by a public address system. The intensity at a location 26 m...
Suppose that a public-address system emits a 494 Hz sound uniformly in all directions. (a) If the air temperature is 25oC (sound travels at 346 m/s), what is the wavelength of this sound? (b) If the intensity at a location 22 m away from the sound source is 3x10-4 W/m2 , what is the power of the sound coming from the speaker?
7. Suppose that a public-address system emits a 494 Hz sound uniformly in all directions. (a) If the air temperature is 25°C (sound travels at 346 m/s), what is the wavelength of this sound? (b) If the intensity at a location 22 m away from the sound source is 3x104 W/m2, what is the power of the sound coming from the speaker? Answer 8. Two boys are pulling a box across a horizontal floor. If Fi- 50 N, 30° N...
Chapter 16, Problem 056 Suppose that is the intensity at a spot that is 82 m away? a public address system emits sound uniformly in all directions and that there are no rene tions. The intersty at .locaton 26 m away horn the sand เฉ¡ce as 3.0 x 204 w/m2 . what are no reflections the tolerance is +/-2%
A source emits sound uniformly in all directions. There are no reflections of the sound. At a distance of 12 m from the source, the intensity of the sound is 3.3 × 10-3 W/m2. What is the total sound power P emitted by the source?
A woman stands a distance d from a loud motor that emits sound uniformly in all directions. The sound intensity at her position is an uncomfortable 3.2 *10-3 W/m2. At a position twice as far from the motor, calculate the following: (a) the sound intensity in W/m2 (b) the sound intensity level relative to the threshold of hearing
Please answer. Thank you! The following problems are each worth 4 points. There is partial credit. Please show all work including equations Do not forget units. Please place the answer in the box provided. 7. Suppose that a public-address system emits a 494 Hz sound uniformly in all directions. (a) If the air temperature is 25°C (sound travels at 346 m/s), what is the wavelength of this sound? (b) If the intensity at a location 22 m away from the...
At a concert, a person is standing 2.00 m from a speaker, where the sound intensity is 0.120 W/m2. Another person is 32.0m from the speaker. Assume the sound is emitted equally in all directions. lo = 1.00 x 10-12 W/m2 a) What is the intensity in W/m2 at 32.0 m from the speaker? b) What is the sound level in dB at 32.0 m from the speaker? The intensity is 7.50 x 10-3 W/m2 The intensity is 3.00 x...
At a concert, a person is standing 2.00 m from a speaker, where the sound intensity is 0.120 W/m2. Another person is 32.0 m from the speaker. Assume the sound is emitted equally in all directions. lo=1.00 x 10-12 W/m2 a) What is the intensity in W/m2 at 32,0 m from the speaker? b) What is the sound level in dB at 32.0 m from the speaker? A. The intensity is 7.50 x 10-3 W/m2 OB. The intensity is 3.00...
At a concert, a person is standing 2.00 m from a speaker, where the sound intensity is 0.120 W/m2. Another person is 32.0 m from the speaker. Assume the sound is emitted equally in all directions. I0 = 1.00 x 10-12 W/m2 a) What is the intensity in W/m2 at 32.0 m from the speaker? b) What is the sound level in dB at 32.0 m from the speaker? A. The intensity is 7.50 x 10-3 W/m2 B. The intensity...
The sound from a trumpet radiates uniformly in all directions in air with a temperature of 20∘C. At a distance of 4.98 m from the trumpet the sound intensity level is 56.0 dB. The frequency is 586 Hz. Use 344 m/s for the speed of sound in air, 1.20 kg/m3 for the density of air, and 1.00×10−12 W/m2 for the reference intensity. a) What is the pressure amplitude at this distance? b) What is the displacement amplitude? Use 1.42×105 Pa...