C will be in the ratio

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In the figure below, P and Q are two equally intense coherent sources emitting radiation of wavelength 20 m. The separation between P and Q is 5 m and the phase of P is ahead of that of Q by 90°. A, B and C are three distinct points of observation, each equidistant from the midpoint of PQ. The intensities of radiation at A, B, C will be in the ratio
19
Sep
In the figure below, P and Q are two equally intense coherent sources emitting radiation of wavelength 20 m. The separation between P and Q is 5 m and the phase of P is ahead of that of Q by 90°. A, B and C are three distinct points of observation, each equidistant from the [...]
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Tags: B , B and C are three distinct points of observation , C will be in the ratio , each equidistant from the midpoint of PQ. The intensities of radiation at A , In the figure below , P and Q are two equally intense coherent sources emitting radiation of wavelength 20 m. The separation between P and Q is 5 m and the phase of P is ahead of that of Q by 90°. A ,
Fig, here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ is 5m, and phase of Q is ahead of the phase P by 90∘. A, B and C are three distant points of observation equidistant from the mid – point of PQ. The intensity of radiations of A, B, C will be in the ratio
17
Nov
Fig, here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ is 5m, and phase of Q is ahead of the phase P by 90∘. A, B and C are three distant points of observation equidistant from the mid – point of PQ. The intensity of [...]
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Tags: and phase of Q is ahead of the phase P by 90∘. A , B , B and C are three distant points of observation equidistant from the mid - point of PQ. The intensity of radiations of A , C will be in the ratio , Fig , here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ is 5m ,
Fig, here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ si 5m, and phase of P is ahead of the phase Q by 90∘. A, B and C are three distant points of observation equidistant from the mid – point of PQ. The intensity of radiations of A, B, C will be in the ratio
12
Sep
Fig, here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ si 5m, and phase of P is ahead of the phase Q by 90∘. A, B and C are three distant points of observation equidistant from the mid – point of PQ. The intensity of [...]
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Tags: and phase of P is ahead of the phase Q by 90∘. A , B , B and C are three distant points of observation equidistant from the mid - point of PQ. The intensity of radiations of A , C will be in the ratio , Fig , here shows P and Q as two equally intense coherent sources emitting radiations of wavelength 20m. The separation PQ si 5m ,