b) In a certain region with µ= H,, ɛ =6.25€g, o =0, the magnetic field of an EM wave is H=0.6 cos fx cos(10°t)a, A/m Using Maxwell's equation, find: ii. E
b) In a certain region with µ= H,, ɛ =6.25€g, o =0, the magnetic field of an EM wave is H=0.6 cos fx cos(10°t)a, A/m Using Maxwell's equation, find: ii. E
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Use phasor-form Maxwell’s equations to solve the following problems:
![b) In a certain region with u= H,, ɛ = 6.25€g, o =0, the magnetic field of an
EM wave is H=0.6 cos fx cos(10°t)a, A/m
Using Maxwell's equation, find:
i. B
ii. E
c) An antenna radiates in free space and
12 sim º cos(4.7 × 10*t- ßr)a, mA/m. Find the corresponding E
H=](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fac4457bd-4c88-42ff-bf50-69f41e26f550%2Fcc01afcc-22a5-4a97-a94b-038a3561e513%2Ft5bfo8k_processed.png&w=3840&q=75)
Transcribed Image Text:b) In a certain region with u= H,, ɛ = 6.25€g, o =0, the magnetic field of an
EM wave is H=0.6 cos fx cos(10°t)a, A/m
Using Maxwell's equation, find:
i. B
ii. E
c) An antenna radiates in free space and
12 sim º cos(4.7 × 10*t- ßr)a, mA/m. Find the corresponding E
H=
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