Electric field as a function of time

AI Thread Summary
The discussion focuses on analyzing the electric field of an electromagnetic wave as a superposition of two linearly polarized waves, represented by Ex and Ey. The challenge is to describe the behavior of these electric fields as a function of time at a fixed position, specifically z = 0. Participants express confusion about how to combine the components and whether to use complex forms for calculations. Clarification is provided that setting z to zero simplifies the analysis, allowing for a straightforward evaluation of the electric fields over time. The conversation emphasizes the importance of understanding the superposition principle in classical physics.
jasonchiang97
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Homework Statement


Before diving into the quantum-mechanical superposition principle, let’s get some practice with superposition in classical physics. Consider an electromagnetic wave propagating in the z-direction, which is a superposition of two linearly polarized waves. The electric field vector in the wave is E = Ex + Ey, where Ex = a cos(kz − ωt), Ey = b cos(kz − ωt + δ). (1) The parameter δ is a real number between −π/2 and π/2, and indicates by how much the two components are out of phase. Look at the behavior of the electric field at some fixed value of z, say z = 0 for simplicity.

a) [2pt] Describe what the electric fields Ex and Ey are doing as a function of time.

Homework Equations


E = Ex + Ey

The Attempt at a Solution



Well I'm not really sure how to start the problem so I just tried to put it into complex form

Ex = a*ei(kz-ωt)/SUP]
Ey = b*ei(kz-ωt + δ)

Since they are separate components, I cannot add them together so I am unsure of what to do next
 
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jasonchiang97 said:
so I just tried to put it into complex form
Making things difficult, eh ? Why do so if you have an expression for ##E_x## and for ##E_y## as a function of ##z## and ##t## and the first part of the exercise asks for ##E_x## and ##E_y## as a function of ##t## for a given ##z## ?

Things may be more complex in part b) but I can't guess and you don't tell ... :rolleyes:
 
BvU said:
Making things difficult, eh ? Why do so if you have an expression for ##E_x## and for ##E_y## as a function of ##z## and ##t## and the first part of the exercise asks for ##E_x## and ##E_y## as a function of ##t## for a given ##z## ?

Things may be more complex in part b) but I can't guess and you don't tell ... :rolleyes:

Ah, so I can just set z=0 and I would have my function?
 
Bingo
 
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