Two identical coherent sources are placed on a diameter of a circle of radius R at separation x `(lt lt R)` symmetrical about the center of the circle. The sources emit identical wavelength `lambda` each. The number of points on the circle of maximum intensity is `(x = 5 lambda)`

Two identical coherent sources are placed on a diameter of a circle of radius R at a separation d(ltltR)(d=5lambda) symmetrically about the centre of the circle. The sources emit identical wavelength lambda each. What will be the number of points on the circle with constructive interference?

Two sources of sound are placed along the diameter of a circle of radius R(R gt gt 41) . How many minima will be heard as one moves along the perimeter of circle.

Let PQ and RS be tangents at the extremities of the diameter PR of a circle of radius r. If PS and RQ intersect at a point X on the circumference of the circle, then 2r equals

Two identical light sources S_1 and S_2 emit light of same wavelength lambda . These light rays will exhibit interference if

Two coherent fight sources A and B with separation 2lambda are placed on the x-axis symme-trically about the origion. They emit light of wavelength lambda . Obtain the positions of maxima on a circle of large radius, lying in the x-y plane and with centre at the origion.

Two coherent sources S_1 and S_2 area separated by a distance four times the wavelength lambda of the source. The sources lie along y axis whereas a detector moves along +x axis. Leaving the origin and far off points the number of points where maxima are observed is

If the equations of the two diameters of a circle are x-y=5\ and \ 2x+y=4 and the radius of the circle is 5, find the equation of the circle.

The equation of two diameters of a cirlce are x - y = 5 and 2 x + y = 4 and the radius of the circle is 5, then the equation of t he circle is

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

Three dipoles each of dipole moment of magnitude p are placed tangentially on a circle of radius R in its plae positioned at equal angle from each other as shown in the figure. Then the magnitude of electric field intensity at the centre of the circle will be :