368047 In Young's double slit experiment 10th order maximum is obtained at the point of observation in the interference pattern for \(\lambda = 7000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \). If the source is replaced by another one of wavelength \(5000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \) then the order of maximum at the same point will be-

368048 In Young's double slit experiment (distance between slits is \(d\)) monochromatic light of wavelength \(\lambda\) is used and the the screen is present at a distance \(L\) from the slits. The angular position of the bright fringes are

368049 In Young's double slit experiment, light from two identical sources are superimposing on a screen. The path difference between the two lights reaching at a point on the screen is \(7 \dfrac{\lambda}{4}\). The ratio of intensity of fringe at this point with respect to the maximum intensity of the fringe is

368050 The young's double slit experiment is performed with light of wavelength \({6000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } }\) where in 16 fringes occupy a certain region on the screen. If 24 fringes occupy the same region with another light of wavelength \(\lambda\), then \(\lambda\) is:

368047 In Young's double slit experiment 10th order maximum is obtained at the point of observation in the interference pattern for \(\lambda = 7000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \). If the source is replaced by another one of wavelength \(5000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \) then the order of maximum at the same point will be-

368048 In Young's double slit experiment (distance between slits is \(d\)) monochromatic light of wavelength \(\lambda\) is used and the the screen is present at a distance \(L\) from the slits. The angular position of the bright fringes are

368049 In Young's double slit experiment, light from two identical sources are superimposing on a screen. The path difference between the two lights reaching at a point on the screen is \(7 \dfrac{\lambda}{4}\). The ratio of intensity of fringe at this point with respect to the maximum intensity of the fringe is

368050 The young's double slit experiment is performed with light of wavelength \({6000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } }\) where in 16 fringes occupy a certain region on the screen. If 24 fringes occupy the same region with another light of wavelength \(\lambda\), then \(\lambda\) is:

368047 In Young's double slit experiment 10th order maximum is obtained at the point of observation in the interference pattern for \(\lambda = 7000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \). If the source is replaced by another one of wavelength \(5000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \) then the order of maximum at the same point will be-

368048 In Young's double slit experiment (distance between slits is \(d\)) monochromatic light of wavelength \(\lambda\) is used and the the screen is present at a distance \(L\) from the slits. The angular position of the bright fringes are

368049 In Young's double slit experiment, light from two identical sources are superimposing on a screen. The path difference between the two lights reaching at a point on the screen is \(7 \dfrac{\lambda}{4}\). The ratio of intensity of fringe at this point with respect to the maximum intensity of the fringe is

368050 The young's double slit experiment is performed with light of wavelength \({6000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } }\) where in 16 fringes occupy a certain region on the screen. If 24 fringes occupy the same region with another light of wavelength \(\lambda\), then \(\lambda\) is:

368047 In Young's double slit experiment 10th order maximum is obtained at the point of observation in the interference pattern for \(\lambda = 7000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \). If the source is replaced by another one of wavelength \(5000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } \) then the order of maximum at the same point will be-

368048 In Young's double slit experiment (distance between slits is \(d\)) monochromatic light of wavelength \(\lambda\) is used and the the screen is present at a distance \(L\) from the slits. The angular position of the bright fringes are

368049 In Young's double slit experiment, light from two identical sources are superimposing on a screen. The path difference between the two lights reaching at a point on the screen is \(7 \dfrac{\lambda}{4}\). The ratio of intensity of fringe at this point with respect to the maximum intensity of the fringe is

368050 The young's double slit experiment is performed with light of wavelength \({6000\mathop {{\rm{ }}A}\limits^{\;\;^\circ } }\) where in 16 fringes occupy a certain region on the screen. If 24 fringes occupy the same region with another light of wavelength \(\lambda\), then \(\lambda\) is: