Two point sources separat by 2.0 m are radiating in phase with 2 = 0.50m. A detector moves in a circula path around the two source in a plane containing them How many maxima are detected? S S, 2m

Two point sources separated by 2.0 m are radiating in phase with lambda = 0.50 m . A detector moves in a circular path around the two sources in a plane containing them. How many maxima are detected?

Two point sources separated by 2.0 m are radiating in phase with lambda = 0.50 m . A detector moves in a circular path around the two sources in a plane containing them. How many maxima are detected?

Two coherent radio-frequency point sources separated by 2.0 m are radiating in phase with lambda=0.50 m . A detector moves in a circuit of large radius around the two sources in a plane containing them as shown in figure. Find (a) the angular position of interference maxima for 0lethetale90^(@) and (b) number of maximum in the range (-pi/2)lethetalepi/2 and in one complete rotation.

Two radio frequency sources S_(1) and S_(2) , separated by distance 2.5 m emitting in phase waves of wavelength 1m. A detector moves in a large circular path around the two sources in a plane containing them. The number of maxima that will be detected by it over the complete circular path. are

Two coherent radio point sources that are separated by 2.0 m are radiating in phase with a wavelength of 0.25m. If a detector moves in a large circle around their mid-point. At how many points will the detector show a maximum signal?

Two coherent radio point sources that are separated by 2.0 m are radiating in phase with a wavelength of 0.25m. If a detector moves in a large circle around their mid-point. At how many points will the detector show a maximum signal?

Two coherent sources separated by distance d are radiating in phase having wavelength lambda . A detector moves in a big circle around the two sources in the plane of the two sources. The angular position of n=4 interference maxima is given as