Question
Question: The intensity variation in the interference pattern obtained with the help of two coherent sources i...
The intensity variation in the interference pattern obtained with the help of two coherent sources is 5% of the average intensity. Find out the ratio of intensities of two sources.
Solution
The ratio of the intensities can be determined by using the given information of the average of the intensities. The average of the shows the maximum and minimum intensities, the maximum and minimum intensities shows the intensities of the two sources.
Complete step by step solution
Given that,
The interference pattern obtained with the help of two coherent sources is 5% of the average intensity.
Now,
The average of the two intensities is given by,
Iavg=2Imax+Imin
Now, the maximum and minimum intensities of the two sources are given by,
For maximum,
Imax=(Ia+Ib)2
For minimum,
Imin=(Ia−Ib)2
Where, Ia and Ib are the intensities of the two sources.
Now, by the given data, the intensity variation of the interference pattern is 5% of the average intensity, then
Imax−Imin=5%×Iavg
On further steps in the above equation, then
Imax−Imin=1005×Iavg
Now substituting the average of intensities formula in the above equation, then
Imax−Imin=1005×2Imax+Imin
On dividing the terms in the above equation, then
Imax−Imin=201×2Imax+Imin
On multiplying the terms in the above equation, then
Imax−Imin=40Imax+Imin
By rearranging the terms in the above equation, then
40(Imax−Imin)=Imax+Imin
By multiplying the terms in the LHS, then
40Imax−40Imin=Imax+Imin
By rearranging the terms in the above equation, then
40Imax−40Imin−Imax−Imin=0
By subtracting the terms in the above equation, then
39Imax−41Imin=0
By rearranging the terms in the above equation, then
39Imax=41Imin
By rearranging the terms in the above equation, then
IminImax=3941
By substituting the formula of Imax and Imin in the above equation, then
(Ia−Ib)2(Ia+Ib)2=3941
The above equation is also written as,
(Ia−IbIa+Ib)2=3941
By taking square root on both sides, then the above equation is written as,
Ia−IbIa+Ib=3941
The above equation is also written as,
Ia−IbIa+Ib=3941
By cross multiplying the terms in the above equation, then
39(Ia+Ib)=41(Ia−Ib)
By multiplying the terms in the above equation, then
39Ia+39Ib=41Ia−41Ib
By rearranging the terms in the above equation, then
41Ib+39Ib=41Ia−39Ia
By taking the terms as common in both sides, then
Ib(41+39)=Ia(41−39)
By rearranging the terms in the above equation, then
(41−39)(41+39)=IbIa
The above equation is also written as,
IbIa=41−3941+39
By taking square on both side in the above equation, then
IbIa=(41−3941+39)2
Thus, the above equation shows the ratio of the intensities of two sources.
Note: The two sources of the intensities are a and b, so the intensities of the two sources are Ia and Ib. The maximum intensity of the two intensities are equal to the sum of the square root of the individual intensities. The minimum intensity of the two intensities are equal to the difference of the square root of the individual intensities.