The intensity of interference waves in an interference pattern is same as `I_(0)`. The resultant intensity at the point of observation will be

The intensity of interference waves in an interference pattern is same as I_(0) . The resultant intensity at any point of observation will be

Two identical coherent waves, each of intensity I are producing an interference pattern. find the value of the resultant intensity at a point of constructive interference.

Two identical coherent waves, each of intensity 'I', are producing an interference pattern. Find the value of the resultant intensity at a point destructive interference.

Two identical coherent waves, each of intensity 'I', are producing an interference pattern. Find the value of the resultant intensity at a point constructive interference.

Interference and resultant intensity

Two identical coherent waves each of intensity I_(0) are producing interference pattern. What are the values of resultant intensity at a point of (i) constructive interference (ii) destructive interference ?

Two sinusoidal waves of intensity I having same frequency and same amplitude interferes constructively at a point. The resultant intensity at a point will be

Two sinusoidal waves of intensity I having same frequency and same amplitude interferes constructively at a point. The resultant intensity at a point will be

Monochromatic light waves of intensities I_(1) and I_(2) , and a constant phase difference phi produce an interference pattern. State an expression for the resultant intensity at a point in the pattern. Hence deduce the expressions for the resultant intensity, maximum intensity and minimum intensity if I_(1)=I_(2)=I_(0).

Assertion (A) : The maximum intensity in interference pattern is four times the intensity in interference pattern is four times the intensity due to each slit of equal width. Reason (R ) : Intensity is directly proportinal to square of amplitude.