I got everything else right except part c, no idea.
I got everything else right except part c, no idea. Two speakers, emitting identical sound waves...
1. (10 points) Two identical speakers are continuously emitting sound waves uniformly in all directions at 440 Hz. The speed of sound is 344 m/s. Point P is a distance of r = 3.13 m away from speaker 1 and r2 = 4.30m from speaker 2: i. What is the phase difference between the waves at Point P? ii. Is this a point of constructive interference, destructive interference, or something in between? Explain.
1. (10 points) Two identical speakers are continuously emitting sound waves uniformly in all directions at 440 Hz. The speed of sound is 344 m/s. Point P is a distance of rı= 3.13 m away from speaker 1 and r2 = 4.30 m from speaker 2: i. What is the phase difference between the waves at Point P? ii. Is this a point of constructive interference, destructive interference, or something in between? Explain. 2. (10 points) A real (non-ideal) double-slit...
Two speakers, A and B, are 4.00 m apart and are emitting identical in-phase sound waves. The speed of sound in air is 340 m/s. Consider a line which is the perpendicular bisector of the line connecting the two speakers. The first interference maximum occurs at ±25.15 o from this line. (a) What is the frequency of the sound emitted? (b) Find the rest of the angles where constructive and destructive interference occur. (c) If the speakers are aboard a...
BLOCK 10: I.A listener is standing in front of two speakers that are producing sound of the same frequeney and amplitude, except that they are vibrating out of phase a. Initially, the listener is at the same distance from each speaker (see the drawing). So, Ax- Therefore ф- Midpoint0.92 m and we know A 4.00 m 1,50m 1.50m So, the soundwaves interfere (constructively/destructively) and the sound at the mid-point is (soft/loud) b. As the listener moves sideways, the sound intensity...
Two loudspeakers, labeled A and B, emnit sound waves in every direction. Both speakers emit sound with the same wavelength, and they are in phase (they emit peaks of the sound wave at the same time). The location labeled C is a location of constructive interference, and the location labeled D is a location of destructive interference. The distances from the loudspeakers to the locations are as indicated. (Picture may not be to scale!!) (a) What is the wavelength of...
Two speakers create identical 240 Hz sound waves. A person is 1.47 m from speaker 1. What is the minimum distance to speaker 2 for there to be destructive interference at that spot? •I have asked this question before and got 2.18 m as the answer but it appears that is not the right answer Two speakers create identical 240 Hz sound waves. A person is 1.47 m from Speaker 1. What is the MINIMUM distance to Speaker 2 for...
Two speakers are completely out of phase, each emitting a sound that has a wavelength of 2.0 m. Speaker A is at the origin, while Speaker B is at a position of 11 m along the x-axis. Is the point P at 4.0 m on the x-axis a point of completely constructive interference, completely destructive interference or neither? у P B completely constructive interference completely destructive interference neither
Two speakers are completely out of phase, each emitting a sound that has a wavelength of 2.0 m. Speaker A is at the origin, while Speaker B is at a position of 11 m along the x-axis. Is the point P at 4.0 m on the x-axis a point of completely constructive interference, completely destructive interference or neither? A P X В O completely constructive interference O completely destructive interference O neither
Two speakers create identical 288 Hz sound waves. A person is 1.47 m from Speaker 1. What is the minimum distance to Speaker 2 for there to be constructive interference at that spot? Two speakers create identical 288 Hz sound waves. A person is 1.47 m from Speaker 1. What is the MINIMUM distance to Speaker 2 for there to be constructive interference at that spot? (Hint: v- Af 343 m/s) (Unit = m) Enter
11) Two loudspeakers, A & B are emitting waves of the same frequency (f= 1021 Hz) in a room where the speed of sound is measured to be v 343 m/s. a) What is the wavelength of the sound emitted by the speakers? 4.0 m1.5 m 2.0 m If a person at point P determines that the waves from the two speakers interfere destructively (it is quiet at point P), are the waves emitted from the speakers in phase or...
> An illustrative and helpful answer, thanks!
Sagat Mon, Dec 12, 2022 11:02 AM