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10/1/20

[Answer] Red laser light passes through a single slit to form a diffraction pattern. If the width of the slit is increased by a factor of two what happens to the width of the central maximum? Note: Assume that the angle θ is sufficiently small so that (sin θ) is nearly equal to θ.

Answer: B) The width of the central maximum decreases by a factor of 2.




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Red laser light passes through a single slit to form a diffraction pattern. If the width of the slit is increased by a factor of two what happens to the width of the central maximum? Note: Assume that the angle θ is sufficiently small so that (sin θ) is nearly equal to θ. 33 Red laser light passes through a single slit to form a diffraction pattern . If the width of the slit is increased by a factor of two what happens to the width of the central maximum ? Note : Assume that the angle ? is sufficiently small so that (sin ?? is nearly equal to ?. (a) The width of the central maximum increases by a factor of 4. Light from a red laser passes through a single slit to form a diffraction pattern . If the width of the slit is increased by a factor of two what happens to the width of the central maximum ? Note : Assume that the angle θ is sufficiently small so that (sin θ ) is nearly equal to θ (a) The width of the central maximum increases by a factor of 4 ... Chapter 27 Physics Flashcards | Quizlet Chapter 27 Physics Flashcards | Quizlet Chapter 27 Physics Flashcards | Quizlet Red laser light passes through a single slit to form a diffraction pattern. If the width of the slit is increased by a factor of two what happens to the width of the central maximum? Note: Assume that the angle θ is sufficiently small so that (sin θ) is nearly equal to θ . Red laser light passes through a single slit to form a diffraction pattern. If the width of the slit is increased by a factor of two what happens to the width of the central maximum? Note: Assume that the angle θ is sufficiently...

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