Answer:
Step-by-step explanation:
Given that,
Distance between speaker
L = 4.5m
Minimum intensity at L1 = 0.21m
Speed of sound is
V = 340m/s
A. Frequency of sound f?
The path difference Pd
Distance from the first speaker when you are 0.21m away
d1 = 2.25 + 0.21 = 2.46m
Distance from the second speaker when you move 0.21m closer
d2 = 2.25—0.21 = 2.04m
So, path difference is
Pd = ∆d = d1 — d2
Pd = 2.46—2.04 = 0.42m
Using the destructive interference condition
∆d = (m + ½)λ
m = 0,1,2,3....
When m= 0
∆d = ½λ
0.42 = ½λ
λ = 0.84
Then, using wave equation
v = fλ
Then, f = v / λ
f = 340 / 0.84
f = 404.76Hz
B. Incorrect question
If he is to remain at his initial positions then it is 0.21m from the center.
Then,
Constructive interference is given as
∆d = mλ
Where m = 0,1,2,3
So when m= 1
∆d = λ
And we already got the path difference to be 0.42m
So, ∆d = λ
λ = 0.42
So, applying wave equation
V = fλ
F = v/λ
F = 340/0.42
F = 809.52 Hz
But if we are to use the data given in part B
0.35m from the center..
Following the same principle as part A, the path difference will be 0.35
Therefore, since ∆d = λ
Then, λ = 0.35
So, f, = v/λ
F = 340 /0.35
F = 971.43 Hz