electromagnetic waves... waves review

Color_of_Cyan

1. The problem statement, all variables and given/known data
The figure below shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose the wavelength is 56.0 m and the electric field vibrates in the xy plane with an amplitude of 20.0 V/m.




(a) Calculate the frequency of the wave.

(b) Calculate the magnetic field when the electric field has its maximum value in the negative y direction.

(c) Write an expression for with the correct unit vector, with numerical values for Bmax, k, and ω, and with its magnitude in the form
B = Bmax cos (kx − ωt).
(Assume B is measured in nT, x is measured in m and t in s.)

2. Relevant equations

c = 1/(μ₀ε₀)^1/2

c = 299609581 m/s

f = c / λ

E = Emax cos(kx - ωt)

B = Bmax cos(kx - ωt)

E max / B max = E / B = c


k = 2π/λ

ω = 2πf

3. The attempt at a solution

I only found the frequency, which is 5.35 x 10⁶ Hz


I would like some hints how to find E max then I can just use the third equation listed.


I'm thinking that E = Emax cos(kx - wt) and I think

E = (20V/m) cos[(0.1121)(x) - (33615041)(t)]

where 0.1121 is k (k=2pi / λ)

and where 33615041 is ω (ω = 2πf)



What would I do with regards to x and t in the equation?

Muphrid

The amplitude of the wave is given to you, and that is the magnitude of the electric field when it is maximal, isn't it?

Edit: wait, why are you asking about [itex]E_\text{max}[/itex] when you already observed it's [itex]20 \; \text{V/m}[/itex]

Color_of_Cyan

I didn't really see that... thanks

I got the rest of the problem as well.