derive an expression for the intensity at a point where interference of light occurs. Arrive at the condition for maximum and minimum
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Answer:
Let y
1
and y
2
be displacement of two waves having same amplitude a and phase difference ϕ between them.
y
1
=asinωt
y
2
=asin(ωt+ϕ)
Resultant displacement is: y=y
1
+y
2
y=asinωt+asin(ωt+ϕ)=asinωt(1+cosϕ)+cosωt(asinϕ)
Rcosθ=a(1+cosϕ)
Rsinθ=asinϕ
y=Rsin(ωt+θ)
Where, R is resultant amplitude at P, I is intensity, squaring the equations we get,
I=R
2
=a
2
(1+cosϕ)
2
+a
2
(sinϕ)
2
=2a
2
(1+cosϕ)=4a
2
cos
2
2
ϕ
Maximum intensity:
cos
2
2
ϕ
=1
ϕ=2nπ where n=0,1,2,3,....
Therefore, I
max
=4a
2
Minmum intensity:
cos
2
2
ϕ
=0
ϕ=(2n+1)π where n=0,1,2,3,....
Therefore, I
max
=0
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