A) \[\frac{K}{2}\]
B) \[K\]
C) zero
D) \[\sqrt{2}K\]
Correct Answer: C
Solution :
Key Idea: Resultant intensity is given by \[{{I}_{R}}={{I}_{1}}+{{I}_{2}}+2\sqrt{{{I}_{1}}{{I}_{2}}}\cos \,o|\] Resultant intensity due to two waves of intensities \[{{I}_{1}},{{I}_{2}}\]is given by \[{{I}_{R}}={{I}_{1}}+{{I}_{2}}+2\sqrt{{{I}_{1}}{{I}_{2}}}\cos \text{o }\!\!|\!\!\text{ }\] when path difference is \[\lambda ,\text{o }\!\!|\!\!\text{ =}\,\text{2}\pi \] when path difference is\[\frac{\lambda }{2},\text{o }\!\!|\!\!\text{ =}\pi \] \[\therefore \] \[{{I}_{{{R}_{1}}}}=I+I+2I\cos 2\pi \] \[I{{R}_{1}}=4I=K\] \[{{I}_{{{R}_{2}}}}=I+I+2I\cos \pi \] \[{{I}_{{{R}_{0}}}}=0\]You need to login to perform this action.
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