Two sources `S_1 and S_2` emitting light of wave length 600 nm are placed a distance `1.0x10^-2` cm apart. A detector can be moved on the litre line `S_1P` which is perpendicular to `S_1S_2`. a.What would be the minimum and maximum path differrence at the detector as it is moved alog the line `S_1P`? b. Locate the position of the farthest minimum detect.

Two sources S_(1) and S_(2) emiting light of wavelenght 600 nm placed a distance 1.0 xx 10^(-2) cm apart. A detector can be moved on line S_(1) P which is perpendicular to S_(1) S_(2) (a) What would be the minimum and maximum path difference at the detector as it moves along line S_(1) P ? (b) Locate the psoition of the farthest minima detected .

Two sources S_(1) and S_(2) emiting light of wavelenght 600 nm placed a distance 1.0 xx 10^(-2) cm apart. A detector can be moved on line S_(1) P which is perpendicular to S_(1) S_(2) (a) What would be the minimum and maximum path difference at the detector as it moves along line S_(1) P ? (b) Locate the psoition of the farthest minima detected .

Two sources S1 and S2 emitting light of wave lengths 600 nm are placed a distance 1.0 x 10^(2) cm apart..A detector can be moved on the line which is perpendicular to SiS_(2) . Find out the position of first.minimum detected.

Two sources of sound, S_1 and S_2 , emitting waves of equal wavelength 20.0 cm, are placed with a separation of 20.0 cm between them. A detector can be moved on a line parallel to S_1S_2 and at a distance of 20.0 cm from P it. Initially, the detector is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through wffich the detector should be shifted to detect a minimum of sound.

Two sources of sound, S_1 and S_2 , emitting waves of equal wavelength 20.0 cm, are placed with a separation of 20.0 cm between them. A detector can be moved on a line parallel to S_1S_2 and at a distance of 20.0 cm from P it. Initially, the detector is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through wffich the detector should be shifted to detect a minimum of sound.

Two source of sound, S_(1) and S_(2) , emitting waves of equal wavelength 2 cm , are placed with a separation of 3 cm between them. A detector can be moved on a line parallel to S_(1) S_(2) and at a distance 24 cm from it. Initially, the detecor is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through which the detector should be shifted to detect a minimum of sound.

Two source of sound, S_(1) and S_(2) , emitting waves of equal wavelength 2 cm , are placed with a separation of 3 cm between them. A detector can be moved on a line parallel to S_(1) S_(2) and at a distance 24 cm from it. Initially, the detecor is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through which the detector should be shifted to detect a minimum of sound.

Two coherent point sources S_1 and S_2 emit light of wavelength lambda . The separation between sources is 2lambda . Consider a line passing through S_2 and perpendicular to the line S_(1)S_(2) . What is the smallest distance on this line from S_2 where a minimum of intensity occurs?

Two coherent point sources S_1 and S_2 emit light of wavelength lambda . The separation between sources is 2lambda . Consider a line passing through S_2 and perpendicular to the line S_(1)S_(2) . What is the smallest distance on this line from S_2 where a minimum of intensity occurs?