283257 A beam of light consisting of two wavelengths \(6500 \AA\) and \(5200 \AA\), is used to obtain interference fringes in Young's double slit experiment. Suppose the \(\mathrm{m}^{\text {th }}\) bright fringe due to \(6500 \AA\) coincides with \(n^{\text {th }}\) bright fringe due to \(5200 \AA\) at a minimum distance from the central maximum. Then :

283260 Unpolarized light falls on two polarizing sheets placed one on top of other. If the intensity of transmitted light is one fourth of the incident light, the angle between them is

283263 If two mono-chromatic and phase related beams of light having intensities I and 4I superimposed on each other, then the possible maximum and minimum intensities in the resultant beam obtained are

283268 If the sun rays are incidenting at \(60^{\circ}\) angle and intensity is \(I\). if the sun rays are made incident at \(30^{\circ}\) angle, then what will be the intensity?

283257 A beam of light consisting of two wavelengths \(6500 \AA\) and \(5200 \AA\), is used to obtain interference fringes in Young's double slit experiment. Suppose the \(\mathrm{m}^{\text {th }}\) bright fringe due to \(6500 \AA\) coincides with \(n^{\text {th }}\) bright fringe due to \(5200 \AA\) at a minimum distance from the central maximum. Then :

283260 Unpolarized light falls on two polarizing sheets placed one on top of other. If the intensity of transmitted light is one fourth of the incident light, the angle between them is

283263 If two mono-chromatic and phase related beams of light having intensities I and 4I superimposed on each other, then the possible maximum and minimum intensities in the resultant beam obtained are

283268 If the sun rays are incidenting at \(60^{\circ}\) angle and intensity is \(I\). if the sun rays are made incident at \(30^{\circ}\) angle, then what will be the intensity?

283257 A beam of light consisting of two wavelengths \(6500 \AA\) and \(5200 \AA\), is used to obtain interference fringes in Young's double slit experiment. Suppose the \(\mathrm{m}^{\text {th }}\) bright fringe due to \(6500 \AA\) coincides with \(n^{\text {th }}\) bright fringe due to \(5200 \AA\) at a minimum distance from the central maximum. Then :

283260 Unpolarized light falls on two polarizing sheets placed one on top of other. If the intensity of transmitted light is one fourth of the incident light, the angle between them is

283263 If two mono-chromatic and phase related beams of light having intensities I and 4I superimposed on each other, then the possible maximum and minimum intensities in the resultant beam obtained are

283268 If the sun rays are incidenting at \(60^{\circ}\) angle and intensity is \(I\). if the sun rays are made incident at \(30^{\circ}\) angle, then what will be the intensity?

283257 A beam of light consisting of two wavelengths \(6500 \AA\) and \(5200 \AA\), is used to obtain interference fringes in Young's double slit experiment. Suppose the \(\mathrm{m}^{\text {th }}\) bright fringe due to \(6500 \AA\) coincides with \(n^{\text {th }}\) bright fringe due to \(5200 \AA\) at a minimum distance from the central maximum. Then :

283260 Unpolarized light falls on two polarizing sheets placed one on top of other. If the intensity of transmitted light is one fourth of the incident light, the angle between them is

283263 If two mono-chromatic and phase related beams of light having intensities I and 4I superimposed on each other, then the possible maximum and minimum intensities in the resultant beam obtained are

283268 If the sun rays are incidenting at \(60^{\circ}\) angle and intensity is \(I\). if the sun rays are made incident at \(30^{\circ}\) angle, then what will be the intensity?