The surface x = 0 separate two perfect dielectrics. For x>0, let &₁ =3, while &2 = 5 w x<0. If E₁ = 80-60ŷ-302 V/m, find: a) EN: the magnitude of E, normal component to the surface b) TI Ē₁ and ET₁: the vector and magnitude of E, tangential component to the surface c) E₁: the magnitude of E₁ d) The angle between E, and a normal to the surface e) DN2₂ f) DT2, g) D₂, h) The angle 80, between E, and a normal to the surface
The surface x = 0 separate two perfect dielectrics. For x>0, let &₁ =3, while &2 = 5 w x<0. If E₁ = 80-60ŷ-302 V/m, find: a) EN: the magnitude of E, normal component to the surface b) TI Ē₁ and ET₁: the vector and magnitude of E, tangential component to the surface c) E₁: the magnitude of E₁ d) The angle between E, and a normal to the surface e) DN2₂ f) DT2, g) D₂, h) The angle 80, between E, and a normal to the surface
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Transcribed Image Text:The surface x = 0 separate two perfect dielectrics. For x>0, let &₁₁ =3, while &₁2 = 5 when
x<0. If Ē₁ = 80 - 60ỹ – 302 V/m, find:
a) E₁: the magnitude of E, normal component to the surface
b) Ē₁ and E₁: the vector and magnitude of E, tangential component to the surface
T1
c) E₁: the magnitude of Ē₁
d) The angle between Ē, and a normal to the surface
e) DN2₂
f) DT₂₂
g) D₂,
h) The angle , between E, and a normal to the surface
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