A standing wave with wavelength of 2 m, speed of 20 m/s and amplitude of 4 mm is generated on a taut string. The wavefunction of the standing wave is: O y(x,t) = (2 mm) sin(nx)cos(20t) %3D O y(x,t) = (4 mm) sin(Ttx)cos(0.1nt) %3D O y(x,t) = (8 mm) sin(Tx)cos(0.1rt) %3D O y(x,t) = (4 mm) sin(tx)cos(20rt) O y(x,t) = (2 mm) sin(nx)cos(0.1nt) O y(x,t) = (8 mm) sin(rx)cos(20nt)
A standing wave with wavelength of 2 m, speed of 20 m/s and amplitude of 4 mm is generated on a taut string. The wavefunction of the standing wave is: O y(x,t) = (2 mm) sin(nx)cos(20t) %3D O y(x,t) = (4 mm) sin(Ttx)cos(0.1nt) %3D O y(x,t) = (8 mm) sin(Tx)cos(0.1rt) %3D O y(x,t) = (4 mm) sin(tx)cos(20rt) O y(x,t) = (2 mm) sin(nx)cos(0.1nt) O y(x,t) = (8 mm) sin(rx)cos(20nt)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![A standing wave with wavelength of 2 m,
speed of 20 m/s and amplitude of 4 mm
is generated on a taut string. The
wavefunction of the standing wave is:
O y(x,t) = (2 mm) sin(Tx)cos(20rnt)
O y(x,t) = (4 mm) sin(tx)cos(0.1nt)
y(x,t) = (8 mm) sin(x)cos(0.1nt)
O y(x,t) = (4 mm) sin(tx)cos(20nt)
y(x,t) = (2 mm) sin(tx)cos(0.1 t)
O y(x,t) = (8 mm) sin(tx)cos(20nt)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F48268bfa-9c26-4d1b-a52f-8635375cd8ad%2F1e263e72-53c7-4b47-a117-0306d18c09bd%2F22uhmd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A standing wave with wavelength of 2 m,
speed of 20 m/s and amplitude of 4 mm
is generated on a taut string. The
wavefunction of the standing wave is:
O y(x,t) = (2 mm) sin(Tx)cos(20rnt)
O y(x,t) = (4 mm) sin(tx)cos(0.1nt)
y(x,t) = (8 mm) sin(x)cos(0.1nt)
O y(x,t) = (4 mm) sin(tx)cos(20nt)
y(x,t) = (2 mm) sin(tx)cos(0.1 t)
O y(x,t) = (8 mm) sin(tx)cos(20nt)
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