Exercise 2 The magnetic field in free space isH = ŷ Hm COs (wt – Bz)In free space, o = 0 so that J = 0. Also e = €0. Determine the correspondingelectric field from Ampere's law. (Ans: xHmcos (wt – Bz)).|WEOExercise 3 Determine whether the following fields satisfy Ampere's law in freespace: D = ÿ Dm sin x sin t, H = 2Dm coS x cos t.(Ans: yes).Exercise 4 Show that the fields E = xEm COS (wt – Bz) and H= ŷHm COs (wt – Bz)satisfy Gauss law in free space, where µ = µo_and e = €0 _and no free charge ispresent, p= 0.

“Since you have asked multiple question, we will solve the first question for you. If you want any…

Exercise 2 The magnetic field in free space is H = ŷ Hm COs (wt – Bz) In free space, o = 0 so that J = 0. Also e = €0. Determine the corresponding electric field from Ampere's lauw. (Ans: x- cos (wt – Bz)). WEO

Exercise 2 The magnetic field in free space is H = ŷ Hm COs (wt – Bz) In free space, o = 0 so that J = 0. Also e = €0. Determine the corresponding electric field from Ampere's lauw. (Ans: x- cos (wt – Bz)). WEO

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Question

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Exercise 2 The magnetic field in free space is
H = ŷ Hm COs (wt – Bz)
In free space, o = 0 so that J = 0. Also e = €0. Determine the corresponding
electric field from Ampere's law. (Ans: xHm
cos (wt – Bz)).
|
WEO
Exercise 3 Determine whether the following fields satisfy Ampere's law in free
space: D = ÿ Dm sin x sin t, H = 2Dm coS x cos t.(Ans: yes).
Exercise 4 Show that the fields E = xEm COS (wt – Bz) and H= ŷHm COs (wt – Bz)
satisfy Gauss law in free space, where µ = µo_and e = €0 _and no free charge is
present, p= 0.

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