Optics Question 869
Question: Two identical coherent sources are placed on a diameter of a circle of radius R at separation x (« R) symmetrical about the center of the circle. The sources emit identical wavelength $ \lambda $ each. The number of points on the circle of maximum intersity is $ (x=5\lambda ) $
Options:
20
22
24
26
Show Answer
Answer:
Correct Answer: A
Solution:
[a] Path difference at P is $ \Delta x=2( \frac{x}{2}\cos \theta )=x\cos \theta $
For intensity to be maximum, $ \Delta x=n\lambda $ (n=0, 1, 2, 3, ….) or $ d\cos \theta =n\lambda $
or $ x\cos \theta =\frac{n\lambda }{x} \ge 1 $
$ \therefore n\ge \frac{x}{\lambda } $
Substituting x= 51, we get $ n\ge 5 $ or n= 1, 2, 3, 4, 5, …
Therefore, in all four quadrants there can be 20 maxima.
There are more maxima at $ \theta =0^\circ $
and $ \theta =180{}^\circ $ .
But n = 5 corresponds to $ \theta =90{}^\circ $
and $ \theta =270{}^\circ $ which are coming only twice while we have multiplied it four times.
Therefore, total number of maxima are still 20, i.e., n = 1 to 4 in four quadrants (total 16) plus more at $ \theta =0{}^\circ $ , $ 90{}^\circ $ , $ 180{}^\circ $ and $ 270{}^\circ $ .
BETA
