In an interference arrangement similar to Young's double-slit experiment, the slits S_1 and S_2 are illuminated with coherent microwave sources, each of frequency 10^6 Hz. The sources are synchronized to have zero phase difference. The slits are separated by a distance d=150.0 m. The intensity I (theta) is measured as a function of theta, where theta is defined as shown. If I_0 is the maximum intensity, then I (theta) for 0lethetale90degree is given by

In an interference arrangement similar to young's double slit experiment the slits S_(1) and S_(2) are illuminated with coherent microwave sources each of frequency 10^(6)Hz the sources are synchronized to have zero phase difference. the slits are separated by a distance d=150.0m. The intensity I(theta) is measured as a funtion of theta , where theta is defined as shown. if I_(0) is the maximum intensity then I(theta) for 0lethetale90^(@) is given by:

In an interference arrangement similar to young's double slit experiment the slits S_(1) and S_(2) are illuminated with coherent microwave sources each of frequency 10^(6)Hz the sources are synchronized to have zero phase difference. the slits are separated by a distance d=150.0m. The intensity I(theta) is measured as a funtion of theta , where theta is defined as shown. if I_(0) is the maximum intensity then I(theta) for 0lethetale90^(@) is given by:

In an interference arrangement similar to double-slit experiment, S_(1) and S_(2) are illuminated with coherent source microwave source each of frequency 1 MHz. the sources are synchronized to have zero phase difference . This slits are separated by distance d = 150.0m The intensity I (theta) is measured as a funciton of theta , where theta is defined as shown in figure. If I_(0) is maximum intensity, calculate I (theta) For : a. theta = 0 b. theta = 30^(@) c. theta = 90^(@)

Consider an interference arrangement similar to YDSE. Slits S_(1) and S_(2) are illuminated with coherent microwave sources each of frequency 2 MHz The sources are synchronized to have zero phase difference. The slits are separated by distance d= 75m. The intensity I_((theta)) is measured as a function of theta where theta is defined as shown in figure. if I_(0) is maximum intensity then calculated I_((theta)) for (i) theta= 0^(@), (ii) theta=pi//6 and (iii) theta = pi//2

Consider an interference arrangement similar to YDSE. Slits S_(1) and S_(2) are illuminated with coherent microwave sources each of frequency 2 MHz. The sources are synchronised to have zero phase difference. The slits are separated by distance d= 75m. The intensity I_((theta)) is measured as a function of theta where theta is defined as shown in figure. if I_(0) is maximum intensity then calculated I_((theta)) for (i) theta= 0^(@), (ii) theta=pi//6 and (iii) theta = pi//2

In a interference arrangement similar to Young's double-slit experiment ,the slits S_(1) and S_(2) are illuminated with coheremt microwave source ,each of frequencies 10^(6) Hz.The source are syhronized to have zero phase difference.The slits are separated by a distance from S_(1) and S_(2) where theta is defined as shown if I_(0) is the maximum intensity then

In Young's double slit experiment, if the two slits are illuminated with separate sources, no interference pattern is observed because