None A plane electromagnetic wave traveling in a vacuum has a frequency of ( f= 101° Hz )and the electric field of this wave follows the following relationship:E = &Eox ei(wt-kz)%3Dох1. Calculate the wave number K and the wavelength A, then extract the relationshipof the vector H.&V × Ē COompare the two products.at2.Find both

Solution: 1. Compare the given electric field with the standard travelling electric field vector…

A plane electromagnetic wave traveling in a vacuum has a frequency of ( f= 1010 Hz ) and the electric field of this wave follows the following relationship: ' E = £Eox ei(wt-kz) 'xo, 1. Calculate the wave number K and the wavelength A, then extract the relationship of the vector H. 2. Find both &V x Ē ompare at the two products.

A plane electromagnetic wave traveling in a vacuum has a frequency of ( f= 1010 Hz ) and the electric field of this wave follows the following relationship: ' E = £Eox ei(wt-kz) 'xo, 1. Calculate the wave number K and the wavelength A, then extract the relationship of the vector H. 2. Find both &V x Ē ompare at the two products.

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Question

None

A plane electromagnetic wave traveling in a vacuum has a frequency of ( f= 101° Hz )
and the electric field of this wave follows the following relationship:
E = &Eox ei(wt-kz)
%3D
ох
1. Calculate the wave number K and the wavelength A, then extract the relationship
of the vector H.
&V × Ē COompare the two products.
at
2.
Find both

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