Two sources of electromagnetic waves (light waves) are emitting coherent waves at a frequency of 546 THz. These two sources are located a distance d apart and aimed at point A, as shown below. If the top source is located a distance 3.8 meters away from point A, find the minimum distance d that will give destructive interreference. Enter your answer in millimeters. 4₁ Laser Laser d A

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**Educational Text:** Two sources of electromagnetic waves (light waves) are emitting coherent waves at a frequency of 546 THz. These two sources are located a distance \(d\) apart and are aimed at point \(A\), as shown in the diagram. If the top source is located a distance \(l_1 = 3.8\) meters away from point \(A\), find the minimum distance \(d\) that will give destructive interference. Enter your answer in millimeters. **Diagram Explanation:** The diagram depicts two laser sources positioned vertically in line, each emitting light toward point \(A\). The top laser emits light along a path of length \(l_1 = 3.8\) meters, directly targeting point \(A\). The second laser, positioned directly below the first, is separated by a vertical distance \(d\). It also emits light to point \(A\), following a diagonal path. The two lasers are aligned such that light from both reaches point \(A\), enabling the possibility of interference. Destructive interference occurs when the path difference between the two waves results in a phase difference of an odd multiple of half-wavelengths, effectively canceling each other out at point \(A\). Your task is to determine the smallest separation \(d\) in millimeters that results in this condition.