1. An electromagnetic wave propagating in vacuum has the following magnetic field vector: B(z, t) = j(2.00 x 108 T)cos(kz - wt). What is the electric field vector at z = 0, and t = 0? (A) (6.00 V/m)k (B) (6.00 V/m)j (C) (6.00 V/m)i when markig (D) (3.00 x 10° V/m)i (E) -(3.00 x 10°)j (F) None of these
1. An electromagnetic wave propagating in vacuum has the following magnetic field vector: B(z, t) = j(2.00 x 108 T)cos(kz - wt). What is the electric field vector at z = 0, and t = 0? (A) (6.00 V/m)k (B) (6.00 V/m)j (C) (6.00 V/m)i when markig (D) (3.00 x 10° V/m)i (E) -(3.00 x 10°)j (F) None of these
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Transcribed Image Text:1. An electromagnetic wave propagating in vacuum has the following magnetic field vector:
B(z, t) = j(2.00 x 108 T)cos(kz - wt). What is the electric field vector at z = 0, and t = 0?
(A) (6.00 V/m)k (B) (6.00 V/m)j (C) (6.00 V/m)i
king l
(D) (3.00 x 10° V/m)i (E) -(3.00 x 10°)j (F) None of these
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