3. In the double-slit experiment, suppose the electric fields of the two waves arriving at a point P on the screen is given by Ej = sin(1015t) in µV/m E2 = sin(105t + 24 rad) in µV/m where time t is in seconds. (a) What is the amplitude of the resultant electric field at point P? (b) What is the ratio of the intensity Ip at point P to the intensity Icen at the center of the interference pattern? (c) Describe where point P is in the interference pattern by giving the order of the maximum or minimum on which it lies, or the order of the maximum and minimum between which it lies.

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3. In the double-slit experiment, suppose the electric fields of the two waves arriving at a point P on the screen is given by E1 = sin(1015t) in μV/m E2 = sin(1015t + 24 rad) in μV/m where time t is in seconds. (a) What is the amplitude of the resultant electric field at point P? (b) What is the ratio of the intensity IP at point P to the intensity Icen at the center of the interference pattern? (c) Describe where point P is in the interference pattern by giving the order of the maximum or minimum on which it lies, or the order of the maximum and minimum between which it lies.

3. In the double-slit experiment, suppose the electric fields of the two waves arriving at a point
P on the screen is given by
Ej = sin(1015t) in µV/m
E2 = sin(105t + 24 rad) in µV/m
where time t is in seconds.
(a) What is the amplitude of the resultant electric field at point P?
(b) What is the ratio of the intensity Ip at point P to the intensity Icen at the center of the
interference pattern?
(c) Describe where point P is in the interference pattern by giving the order of the maximum
or minimum on which it lies, or the order of the maximum and minimum between which
it lies.
Transcribed Image Text:3. In the double-slit experiment, suppose the electric fields of the two waves arriving at a point P on the screen is given by Ej = sin(1015t) in µV/m E2 = sin(105t + 24 rad) in µV/m where time t is in seconds. (a) What is the amplitude of the resultant electric field at point P? (b) What is the ratio of the intensity Ip at point P to the intensity Icen at the center of the interference pattern? (c) Describe where point P is in the interference pattern by giving the order of the maximum or minimum on which it lies, or the order of the maximum and minimum between which it lies.
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