MHz EM wave with electric field amplitude of 100 V/m is normally dent in air onto the plane surface of a material with & = 4, y = 1, and 10 S/m, as shown in Figure 5. uah gelombang EM 5 MHz beramplitud 100 v/m ditujukan di dalam udara ke atas mukaan satu bahantara dengan ɛ, = 4, µ, = 1. dana = 10 S/m, seperti yang ditunjukkan -lam Rajah 5.] Calculate the attenuation constant a of the material. [Kira pemalar penyusutan a bahan tersebut.] Determine the depth in the material at which the electric field amplitude has reduced to 20 V/m. [Tentukan kedalaman di dalam bahantara tersebut di mana amplitude medan elektrik telah berkurangan kepada 20 V/m.]
MHz EM wave with electric field amplitude of 100 V/m is normally dent in air onto the plane surface of a material with & = 4, y = 1, and 10 S/m, as shown in Figure 5. uah gelombang EM 5 MHz beramplitud 100 v/m ditujukan di dalam udara ke atas mukaan satu bahantara dengan ɛ, = 4, µ, = 1. dana = 10 S/m, seperti yang ditunjukkan -lam Rajah 5.] Calculate the attenuation constant a of the material. [Kira pemalar penyusutan a bahan tersebut.] Determine the depth in the material at which the electric field amplitude has reduced to 20 V/m. [Tentukan kedalaman di dalam bahantara tersebut di mana amplitude medan elektrik telah berkurangan kepada 20 V/m.]
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Question
![(b) A 5 MHz EM wave with electric field amplitude of 100 V/m is normally
incident in air onto the plane surface of a material with & = 4, y = 1, and
o= 10 S/m, as shown in Figure 5.
[Sebuah gelombang EM 5 MHz beramplitud 100 1/m ditujukan di dalam udara ke atas
permukaan satu bahantara dengan E, = 4, y = 1. dana = 10 5/m, seperti yang ditunjukkan
di dalam Rajah 5.]
(i)
(ii)
Calculate the attenuation constant a of the material.
[Kira pemalar penyusutan a bahan tersebut.]
Determine the depth in the material at which the electric field amplitude
has reduced to 20 V/m.
[Tentukan kedalaman di dalam bahantara tersebut di mana amplitude medan elektrik
telah berkurangan kepada 20 V/m.]
Eo = 100 (V/m)
Figure 5
[Rajah 51
£₁ =4
H₂ = 1
= 10 (S/m)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F59c11cd8-cf54-46fa-b639-3fefb792097e%2F923f62ef-8ef2-4e9f-937e-53a1e48b1e81%2F83ghxva_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(b) A 5 MHz EM wave with electric field amplitude of 100 V/m is normally
incident in air onto the plane surface of a material with & = 4, y = 1, and
o= 10 S/m, as shown in Figure 5.
[Sebuah gelombang EM 5 MHz beramplitud 100 1/m ditujukan di dalam udara ke atas
permukaan satu bahantara dengan E, = 4, y = 1. dana = 10 5/m, seperti yang ditunjukkan
di dalam Rajah 5.]
(i)
(ii)
Calculate the attenuation constant a of the material.
[Kira pemalar penyusutan a bahan tersebut.]
Determine the depth in the material at which the electric field amplitude
has reduced to 20 V/m.
[Tentukan kedalaman di dalam bahantara tersebut di mana amplitude medan elektrik
telah berkurangan kepada 20 V/m.]
Eo = 100 (V/m)
Figure 5
[Rajah 51
£₁ =4
H₂ = 1
= 10 (S/m)
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