An electromagnetic wave's electric vector E lies in the xy-plane, making an angle of 300 with the positive x-axis. The magnetic vector also lies in the xy-plane. The wave is propagating in free space at a frequency f = 10 GHz. If the magnitude of the electric field is 12 V/m, write an expression for the propagation vector k and the vector E as a function of x, y, z and t. What is the wavelength?
An electromagnetic wave's electric vector E lies in the xy-plane, making an angle of 300 with the positive x-axis. The magnetic vector also lies in the xy-plane. The wave is propagating in free space at a frequency f = 10 GHz. If the magnitude of the electric field is 12 V/m, write an expression for the propagation vector k and the vector E as a function of x, y, z and t. What is the wavelength?
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Transcribed Image Text:An electromagnetic
wave's electric vector E
lies in the xy-plane, making an angle of 300
with the positive x-axis. The magnetic
vector also lies in the xy-plane. The wave is
propagating in free space at a frequency f =
10 GHz. If the magnitude of the electric
field is 12 V/m, write an expression for the
propagation vector k and the vector E as a
function of x, y, z and t. What is the
wavelength?
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