Finding the H Field from the E Field

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To find the H field from the given E field, utilize Maxwell's equations, specifically the relationship between the curl of E and the derivative of H. The curl of E is equal to the negative derivative of H multiplied by permeability. By taking the curl of the E vector, dividing by negative permeability, and integrating, H can be determined. The process involves some complex mathematics, but this approach provides a systematic way to derive H from E. Understanding this relationship is crucial for solving electromagnetic field problems.
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Homework Statement


[/B]
E (Vector) = 18.85*cos(omega*t - 15*z) a_x (unit vector)
Find H(vector) field

Homework Equations


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I tried ∇ X H = -dD/dt, in which I take the derivative of E(vector). How do I pull H from the curl?

The Attempt at a Solution


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I took the derivative of -dD/dt, and came up with ∇ X H . I used the matrix to find the partial derivative of H, but I do not know how to find H from the partial derivative. Also, I do not know how to find the direction of H.

Can you please help?
 
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Try another equation from the Maxwell's equations which enables you to calculate H easily from E.
 
The way to arrive at H is indeed to employ the other major Maxwell equation. But the math is a bit extensive. In your course work you probably derived, or saw derived, the simple relation between the H and E fields of a plane wave.
 
Curl of E equals to derivative of H multipled by -permeability. So, take the curl of E, divide to -permeability, then take the integral of that , you have H now.
 

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