A concert loudspeaker suspended high off the ground emits 34 W of sound power. A small...

A concert loudspeaker suspended high off the ground emits 31 W of sound power. A small...

A concert loudspeaker suspended high off the ground emits 31 W of sound power. A small microphone with a 1.0 cm2cm2 area is 40 mm from the speaker. PART A:What is the sound intensity at the position of the microphone? PART B: What is the sound intensity level at the position of the microphone?

A concert loudspeaker suspended high off the ground emits 26.0 W of sound power. A small...

A concert loudspeaker suspended high off the ground emits 26.0 W of sound power. A small microphone with a 1.00 cm2 area is 55.0 m from the speaker. a What is the sound intensity at the position of the microphone? b How much sound energy impinges on the microphone each second?

An outside loudspeaker (considered a small source) emits sound waves with a power output of 117...

An outside loudspeaker (considered a small source) emits sound waves with a power output of 117 W. (a) Find the intensity 11.0 m from the source. W/m2 (b) Find the intensity level in decibels at that distance. dB (c) At what distance would you experience the sound at the threshold of pain, 120 dB? m

An electronic point source emits sound isotropically at a frequency of 3 × 103 Hz and...

An electronic point source emits sound isotropically at a frequency of 3 × 103 Hz and a power of 34 watts. A small microphone has an area of 0.72 cm2 and is located 198 meters from the point source. 1) What is the sound intensity at the microphone ? I = 2) What is the power intercepted by the microphone? Pin = 3) How many minutes will it take for the microphone to recieve 0.2 Joules from this sound? ΔT...

An electronic point source emits sound isotropically at a frequency of 2 × 103 Hz and...

An electronic point source emits sound isotropically at a frequency of 2 × 103 Hz and a power of 29 watts. A small microphone has an area of 0.72 cm2 and is located 150 meters from the point source. 1) What is the sound intensity at the microphone ? I = 2) What is the power intercepted by the microphone? Pin = 3) How many minutes will it take for the microphone to recieve 0.2 Joules from this sound? ΔT...

An electronic point source emits sound isotropically at a frequency of 3 × 103 Hz and...

An electronic point source emits sound isotropically at a frequency of 3 × 103 Hz and a power of 27 watts. A small microphone has an area of 0.78 cm2 and is located 184 meters from the point source. 1) What is the sound intensity at the microphone ? I = 2) What is the power intercepted by the microphone? Pin = 3) How many minutes will it take for the microphone to recieve 0.2 Joules from this sound? ΔT...

A jet engine emits sound uniformly in all directions, radiating an acoustic power of 3.63 ×...

A jet engine emits sound uniformly in all directions, radiating an acoustic power of 3.63 × 105 W. Find the intensity of the sound at a distance of 54.1 m from the engine and calculate the corresponding sound intensity level.

A loudspeaker has an output power of 85 WW and behaves like a point source emitting...

A loudspeaker has an output power of 85 WW and behaves like a point source emitting sound as a spherical wave. Part A - The intensity of sound, II, is defined by which of the following equations Part complete PP is the power of the source, and aa is the area the power is spread over. I=aPI=aP I=PaI=Pa I=PaI=Pa SubmitPrevious Answers Correct Part B - How far fromt he speaker would you need to stand (under ideal circumstances) for the...

At a rock concert, a dB meter registered 126 dB when placed 2.4 m in front...

At a rock concert, a dB meter registered 126 dB when placed 2.4 m in front of a loudspeaker on the stage. Part A What was the power output of the speaker, assuming uniform spherical spreading of the sound and neglecting absorption in the air? Express your answer using two significant figures. P =   W   Part B How far away would the sound level be a somewhat reasonable 88 dB ? Express your answers using two significant figures.

The sound from a busy highway contains a 500 Hz Fourier component whose power at the...

The sound from a busy highway contains a 500 Hz Fourier component whose power at the highway is 1.5 ✕ 10−6 watt/m. (Ignore sound interactions with the ground). (a) What are the sound intensity (in W/m2),the sound intensity level (in dB) and the loudness (in phon) of that Fourier component at a distance of 57 m from the highway? intensity W/m2 intensity level dB loudness phon (b) What are the sound intensity (in W/m2), the sound intensity level (in dB)...