How Do You Sketch a Traveling Wave at Different Time Intervals?

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To sketch the electric field wave E = 50cos(10^8*t + k*z) at specific time intervals, first determine the period T using T = 2Pi/w, where w = 10^8. The wave vector k is calculated as k = w/c, with c being the speed of light (3 x 10^8 m/s), resulting in k = 1/3. For the time intervals t = 0, T/4, T/2, and T, substitute these values into the equation E = 50cos(2Pi*(t/T) - z/3) to obtain the corresponding wave values. This process allows for a clear graph of the wave at the specified time points.
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hi everyone,
i am stuck working on this problem and thought i'd post it to the forum

if an electric field wave is given by E = 50cos(10^8*t + k*z)

what does the wave look like at t=0, T/4, T/2 and T (T is period)

i know that w = 10^8 here and that k = w/2Pi

i'm killing myself trying to graph this wave at those points in time. please help! :confused: :confused:
 
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Actually, k = w/c, c = 3 X 10^8.
And w/2Pi =1/T or T = 2Pi/w .

k is a wave-vector or an inverse wavelegth. w is a frequency or inverse time. Their dimensions are completely different.
 
yes you're right. that's what i have written. k = 1/3 (w/c)

to graph do i just plug in 2Pi/w (or multiple of) for t and 1/3 for k?
 
You have

E = 50 cos (wt - kz), where w = 2Pi/T, k = w/c = 1/3

So E = 50 cos (2Pi*(t/T) - z/3)

You are given different values for t/T, ie. 0, 1/4, 1/2, 1. If you plug these in you get E vs. z
 
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