8hit ev dod mulunnegsfo aaiteng edi awodeloid 7) Six violin players are playing the same note at the same intensity. Two of them suddenly stop. By how much does the sound level decrease? A))1.8 dB B) 1.5 dB C) 4.8 dB D) 4.0 dB E) 3.0 dB

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Chapter1: Units, Trigonometry. And Vectors
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6) What is the frequency of the following sine wave?
y (m)
View
*o find the wavelength
v = 200 m/s
- JTS T2 - slwigwA
200
x (m)
l00
2
3.
4
A mubnagi(A
A) 200 Hz
B) 67 Hz
by
C) 400 Hz
D) 82 Hz
E) 100 Hz
6oitev dod.
7) Six violin players are playing the same note at the same intensity. Two of them suddenly stop. By how much
does the sound level decrease?
A)1.8 dB
(om
B) 1.5 dB
C) 4.8 dB
D) 4.0 dB
E) 3.0 dB
8) At a rock concert, the sound level 2.0 m in front of the stage is 120 decibels. What is the sound level 15 m in
front of the stage?
50.24
A) 16 dB
= 0.078
E) 85 dB
P= I-a = 1 X47M2 =50.24 B=lo ogolo) = (02.5
%3D
B) 2.1 dB
%3D
C) 100 dB
D) 116S)2
I= 102. 10
B= 1o ogio (10-2) = 102.5
9) A 4.0 gram string is 0.36 m long and is under tension. The string vibrates at 500 Hz in its third harmonic. What
is the wavelength of the standing wave in the string?
A) 0.36 m
B) 0.72 m
(C)0.24 m
D) 0.54 m
E) 0.90 m
VE 360
* = (2oms
500%3=
(20
%3D
Foo 024m
= 0 24m
10) Four waves are described by the following equations, where distances are measured in meters and times in
t00
Transcribed Image Text:6) What is the frequency of the following sine wave? y (m) View *o find the wavelength v = 200 m/s - JTS T2 - slwigwA 200 x (m) l00 2 3. 4 A mubnagi(A A) 200 Hz B) 67 Hz by C) 400 Hz D) 82 Hz E) 100 Hz 6oitev dod. 7) Six violin players are playing the same note at the same intensity. Two of them suddenly stop. By how much does the sound level decrease? A)1.8 dB (om B) 1.5 dB C) 4.8 dB D) 4.0 dB E) 3.0 dB 8) At a rock concert, the sound level 2.0 m in front of the stage is 120 decibels. What is the sound level 15 m in front of the stage? 50.24 A) 16 dB = 0.078 E) 85 dB P= I-a = 1 X47M2 =50.24 B=lo ogolo) = (02.5 %3D B) 2.1 dB %3D C) 100 dB D) 116S)2 I= 102. 10 B= 1o ogio (10-2) = 102.5 9) A 4.0 gram string is 0.36 m long and is under tension. The string vibrates at 500 Hz in its third harmonic. What is the wavelength of the standing wave in the string? A) 0.36 m B) 0.72 m (C)0.24 m D) 0.54 m E) 0.90 m VE 360 * = (2oms 500%3= (20 %3D Foo 024m = 0 24m 10) Four waves are described by the following equations, where distances are measured in meters and times in t00
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