Region 1 (y < 0) contains dielectric medium with E = 5€, and ui = 1.5 Ho- While, Region 2 (y > 0) contains dielectric medium with e = 6 E, and p2 = 2.75 Ho- Draw a figure which defines such boundary problem. Clearly show the directions of electric field intensity E OR electric field density D in both Region 1 and Region 2. If the electric field intensity in Region 1 is given as E, = 35 a, + 25 a, – 15 a, V/m, calculate; i. two components of the electric field intensity in Region 1, i.e. E,n and Eju i. electric field intensity in Region 2 E2, i. electric field density in Region 1 D,, and

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Region 1 (y < 0) contains dielectric medium with & = 5 €, and µ, = 1.5 Ho.
While, Region 2 (y > 0) contains dielectric medium with &z = 6 €o and uz = 2.75 Ho.
Draw a figure which defines such boundary problem. Clearly show the directions of electric field
intensity E OR electric field density D in both Region 1 and Region 2.
If the electric field intensity in Region 1 is given as E, = 35 a, + 25 a, - 15 a, V/m, calculate;
i.
two components of the electric field intensity in Region 1, i.e. Ejn and Et
i.
electric field intensity in Region 2 E2.
i. electric field density in Region 1 D,, and
iv, electric field density in Region 2 D2.
Magnetic fields are characterized by the existence of a detectable magnetic force at every point
in the region or simply know as magnetic poles. Describe in detail ONE of its applications in
industry by including a related picture or diagram of such application.
Transcribed Image Text:Region 1 (y < 0) contains dielectric medium with & = 5 €, and µ, = 1.5 Ho. While, Region 2 (y > 0) contains dielectric medium with &z = 6 €o and uz = 2.75 Ho. Draw a figure which defines such boundary problem. Clearly show the directions of electric field intensity E OR electric field density D in both Region 1 and Region 2. If the electric field intensity in Region 1 is given as E, = 35 a, + 25 a, - 15 a, V/m, calculate; i. two components of the electric field intensity in Region 1, i.e. Ejn and Et i. electric field intensity in Region 2 E2. i. electric field density in Region 1 D,, and iv, electric field density in Region 2 D2. Magnetic fields are characterized by the existence of a detectable magnetic force at every point in the region or simply know as magnetic poles. Describe in detail ONE of its applications in industry by including a related picture or diagram of such application.
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