A pair of speakers, placed 3m apart, are driven by the same oscillator with a frequency...
A pair of speakers, placed 3m apart, are driven by the same oscillator with a frequency of 1.3 kHz. A listener is originally at a point O equidistant from the two speakers and 8m from the center of the line joining them. The listener then moves to a point P 0.35m away where the line OP is parallel to that joining the speakers. At P, the listener encounters the first minimum of sound intensity. Calculate the speed of sound. A...
A pair of speakers, placed 3m apart, are driven by the same oscillator with a frequency of 1.3 kHz. A listener is originally at a point O equidistant from the two speakers and 8m from the center of the line joining them. The listener then moves to a point P 0.35m away where the line OP is parallel to that joining the speakers. At P, the listener encounters the first minimum of sound intensity. Calculate the speed of sound.
A pair of speakers separated by distance d = 0.680 m are driven by the same oscillator at a frequency of 677 Hz. An observer originally positioned at one of the speakers begins to walk along a line perpendicular to the line joining the speakers as in the figure below. (Use v = 343 m/s.) (a) How far must the observer walk before reaching a relative maximum in intensity? m (b) How far will the observer be from the speaker...
A pair of speakers separated by distance d = 0.680 m are driven by the same oscillator at a frequency of 677 Hz. An observer originally positioned at one of the speakers begins to walk along a line perpendicular to the line joining the 343 m/s.) speakers as in the figure below. (Use v (a) How far must the observer walk before reaching a relative maximum in intensity? 0.142 Xm
The two speakers of a boom box are 32.2 cm apart. A single oscillator makes the speakers vibrate in phase at a frequency of 1.88 kHz. At what angles, measured from the perpendicular bisector of the line joining the speakers, would a distant observer hear maximum sound intensity? (Take the speed of sound as 340 m/s. Consider nonnegative angles only. Enter your answers from smallest to largest. Enter NONE in any unused answer blanks.)
6-1 Two speakers emit sound waves with frequency 4.27 kHz s pts by the same oscillator so that they are in phase with each other. I place the They are driven speakers side-by-side, and I stand across the room from them. If someone moves one of the speakers towards me, I hear the total intensity drop and then rise again. How far had they moved the speaker at the point whereI heard a minimum intensity due to destructive interference of...
Two loudspeakers placed 6.0 m apart are driven in phase by an audio oscillator, whose frequency range is 711 Hz to 1124 Hz. A point P is located 5.1 m from one loudspeaker and 3.6 m from the other. The speed of sound is 344 m/s. The frequency produced by the oscillator, for which destructive interference occurs at point P, in SI units, is closest to: Two loudspeakers placed 6.0 m apart are driven in phase by an audio oscillator,...
4 15. Two 17.5-mW speakers are situated 4.50 meters apart and playing the same 191.7 Hz tone, but are completely out of phase (Tradians). A listener is stationed at a point 2.40 meters in front of the speaker on the right(B), as shown in the diagram. (3 pts/part) () If the ambient temperature in the room full of a diatomic gas with average molecular mass of 28.94 u is 23°C, what is the wavelength of the sound waves produced by...
Two speakers are placed next to each other, a distance d = 0.328m apart. They are driven by the same frequency generator. The combined sound wave is measured along a straight line parallel to the plane of the speakers, which is at a distance D= 3.89m from the speakers. The m=3-order maximum is at an angle theta=9.12 degrees. Calculate the wavelength of the sound wave.
You are standing a distance d (2m) directly in front of one of two identical speakers, being driven by the same signal generator, that are a distance h (5m) apart. You walk in the positive direction starting at y=0 m, along a line parallel to the line joining the two speakers. The speed of sound is 340 m/s and the frequency is 170 HZ. As you walk, how many times and where will you hear a maximum sound? PROBLEM You...