In YDSE, let A and B be two slits. Films of thickness `t_(A)` and `t_(B)` and refractive `mu_(A)` and `mu_(B)` are placed in front of A and B, respectively. If `mu_(A) t_(A) = mu_(A) t_(B)`, then the central maxima will

In Young's double slit experiment S_(1) and S_(2) are two slits. Films of thickness t_(1) and t_(2) and refractive indices mu_(1) and mu_(2) are placed in front of S_(1) and S_(2) respectively. If mu_(1)t_(1) = mu_(2)t_(2) , then the central maximum will :

In a Young's double slit experiment, films of thickness t_(A) and t_(B) and refcative indices mu_(A) and mu_(B) are placed in front of slits A and B respectively. If mu_(A)t_(A)=mu_(B)t_(B) , then the central maxima may

In a Young's double slit experiment, films of thickness t_(A) and t_(B) and refcative indices mu_(A) and mu_(B) are placed in front of slits A and B respectively. If mu_(A)t_(A)=mu_(B)t_(B) , then the central maxima may

In a Young double slit experiment, the two slits are named as A and B. Two transparent films of thickness t_(1) "and" t_(2) having refractive indices mu_(1)" and" mu_(2) placed in front of the slits A and B respectively. It is given that mu_(1) t_(1) = mu_(2) t_(2)" and" t_(1) lt t_(2) In which direction will the central maximum shift after the two films are placed?

In Young's double-slit experiment, let A and B be the two slit. A thin film of thickness t and refractive index mu is placed in front of A. Let beta = fringe width. Then the central maxima will shift

In Young's double-slit experiment, let A and B be the two slit. A thin film of thickness t and refractive index mu is placed in front of A. Let beta = fringe width. Then the central maxima will shift