Two speakers are located at two neighboring corners of a square of side length 10.0 m. A listener walks from another corner of the square along the side toward the speaker next to her. Assuming that the two speakers are playing the same 75.0-Hz tone in phase and the sound speed in the air is 343 m/s, how many constructive interfere points will the listener encounter?
if observer goes upper half of
the side , he observe one constructive interference, same in lower
half of the square so he will find two constructive interference
within the side of the square of 10m.
Two speakers are located at two neighboring corners of a square of side length 10.0 m....
Two speakers, 1 and 2, are set up with their centers 6.00 m apart. Both are playing the same tone of frequency 225 Hz, in phase. Five listeners are standing on a line that is 6.00 m in front of the speakers as shown in the figure. Each listener is separated by 1.00 m and Cal is directly in front of speaker 1. Determine which listener or listeners will experience constructive interference from the sound emitted by the speakers. The...
The figure shows two loudspeakers (A) and (B), and a point (C)
where a listener is positioned. The speakers vibrate in phase and
are playing a 67.0 Hz tone. The speed of sound is 343 m/s. The
listener at point (C) hears the nearest no sound at a distance 6.50
m as measured from speaker (A). What is the separation (d) between
the two speakers?
general physics.rutgers.edu General Physics 203 Online Assignments Hz 10. The figure shows two loudspeakers (A)...
Both drawings show the same square, each of which has a side of
length L = 0.93 m. An observer O is stationed at one
corner of each square. Two loudspeakers are located at corners of
the square, as in either drawing 1 or drawing 2. The speakers
produce the same single-frequency tone in either drawing and are in
phase. The speed of sound is 343 m/s. Find the single smallest
frequency that will produce both constructive interference in
drawing...
Two identical speakers (labeled 1 and 2) are playing a tone with a frequency of 225 Hz, in phase. The centers of the speakers are located 6.00 m apart. Five observers are standing on a line that is 6.00 m in front of the speakers as shown in the figure. Each observer is separated by 1.00 m and Sue is directly in front of speaker 1. Determine which observer or observers will experience constructive interference from the sound emitted by...
Speakers A and B are vibrating in phase. They are directly facing each other, are 7.4 m apart, and are each playing a 80.0 Hz tone. The speed of sound is 343 m/s. On the line between the speakers there are three points where constructive interference occurs. What is the distance of the farthest point from speaker A?
Speakers A and B are vibrating in phase. They are directly facing each other, are 8.8 m apart, and are each playing a 74.0 Hz tone. The speed of sound is 343 m/s. On the line between the speakers there are three points where constructive interference occurs. What is the distance of the farthest point from speaker A?
Speakers A and B are vibrating in phase. They are directly facing each other, are 8.6 m apart, and are each playing a 74.0 Hz tone. The speed of sound is 343 m/s. On the line between the speakers there are three points where constructive interference occurs. What is the distance of the farthest point from speaker A?
10. The figure shows two loudspeakers (A) and (B), and a point (C) where a listener is positioned. The speakers vibrate in phase and are playing a 65.0 Hz tone. The speed of sound is 343 m/s. The listener at point (C) hears the nearest no sound at a distance 6.00 m as measured from speaker (A). What is the separation (d) between the two speakers? m B d A C
The figure shows a loudspeaker A and point C, where a listener is positioned. |AC| = 3.00 m and the angle θ = 48 °. A second loudspeaker B is located somewhere to the left of A. The speakers vibrate out of phase and are playing a 64.0 Hz tone. The speed of sound is 343 m/s. What is the closest distance to speaker A that speaker B can be located, so that the listener hears no sound? (Not 7.231)
The figure shows a loudspeaker A and point C,
where a listener is positioned. |AC| = 5.00 m and the
angle θ = 44 °. A second loudspeaker B is located
somewhere to the left of A. The speakers vibrate out of
phase and are playing a 61.0 Hz tone. The speed of sound is 343
m/s. What is the third closest distance to speaker A that
speaker B can be located, so that the listener hears no
sound?