Two identical sinusoidal waves, each of amplitude A, and differing by their phase constant, interfere to produce a resultant wave with amplitude A_res. As a result of this interference, the amplitude is decreased by 20%. Determine the phase constant p. O p = 2.32 rad O p = 132 rad O p = 3.48 rad O p = 1.87 rad
Two identical sinusoidal waves, each of amplitude A, and differing by their phase constant, interfere to produce a resultant wave with amplitude A_res. As a result of this interference, the amplitude is decreased by 20%. Determine the phase constant p. O p = 2.32 rad O p = 132 rad O p = 3.48 rad O p = 1.87 rad
Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Two identical sinusoidal waves, each of
amplitude A, and differing by their
phase constant, interfere to produce a
resultant wave with amplitude A_res.
As a result of this interference, the
amplitude is decreased by 20%.
Determine the phase constant p.
O p = 2.32 rad
O p = 132 rad
O p = 3.48 rad
O y = 1.87 rad
To get a full destructive interference
between two waves travelling in the
same direction, a time delay of At = 3
%3D](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcf554174-e853-4c0a-a6ab-7991cd02d585%2F17980031-ff06-4aab-bfb2-0c989b7595c8%2Fni5ljb_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1 Classroom ul
4:48 PM
@ 41% O
Your email will be recorded when you submit
this form
15-MCQS
Two identical sinusoidal waves, each of
amplitude A, and differing by their
phase constant, interfere to produce a
resultant wave with amplitude A_res.
As a result of this interference, the
amplitude is decreased by 20%.
Determine the phase constant p.
O p = 2.32 rad
O p = 132 rad
O p = 3.48 rad
O y = 1.87 rad
To get a full destructive interference
between two waves travelling in the
same direction, a time delay of At = 3
%3D
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