6. Consider the magnetic field component of an electromagnetic wave which is given by B(y, t) = (-0.400 [µT]î + 0.600[µT]Ê) cos(ky + (270. [rad/s])t). The said electromagnetic wave is propagating in vacuum. a. What is the complete electric field vector component of the electromagnetic wave? (Here, you should express explicitly the complete form of cos(ky + wt) wherein the correct numerical values of k and w are written inside the cosine argument.) b. What is the intensity of the electromagnetic wave?
6. Consider the magnetic field component of an electromagnetic wave which is given by B(y, t) = (-0.400 [µT]î + 0.600[µT]Ê) cos(ky + (270. [rad/s])t). The said electromagnetic wave is propagating in vacuum. a. What is the complete electric field vector component of the electromagnetic wave? (Here, you should express explicitly the complete form of cos(ky + wt) wherein the correct numerical values of k and w are written inside the cosine argument.) b. What is the intensity of the electromagnetic wave?
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![6. Consider the magnetic field component of an electromagnetic wave which is given by
B(y, t) = (-0.400 [uT]î + 0.600 [uT]k) cos(ky + (270. [rad/s])t).
The said electromagnetic wave is propagating in vacuum.
What is the complete electric field vector component of the electromagnetic wave?
(Here, you should express explicitly the complete form of cos(ky + wt) wherein the
correct numerical values of k and w are written inside the cosine argument.)
b. What is the intensity of the electromagnetic wave?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff3f1cd0f-8ebf-4169-b9ee-3bfa6c048f4d%2Fd957e9f0-6670-4dd6-bb62-f1640cd372c5%2Fnp17ulh_processed.png&w=3840&q=75)
Transcribed Image Text:6. Consider the magnetic field component of an electromagnetic wave which is given by
B(y, t) = (-0.400 [uT]î + 0.600 [uT]k) cos(ky + (270. [rad/s])t).
The said electromagnetic wave is propagating in vacuum.
What is the complete electric field vector component of the electromagnetic wave?
(Here, you should express explicitly the complete form of cos(ky + wt) wherein the
correct numerical values of k and w are written inside the cosine argument.)
b. What is the intensity of the electromagnetic wave?
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