How much time does it take until the pulses pass each other?

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To determine the time until the transverse wave pulses from two parallel wires pass each other, first calculate the wave velocities using the formula v = sqrt(Tension/mass per length). For wire A, the velocity is approximately 377.6 m/s, and for wire B, it is about 123.9 m/s. The position of the waves can be expressed as v_1 * t = L - v_2 * t, where L is the length of the wires. By equating the two positions and solving for time, the solution can be found. The process is straightforward once the velocities are established.
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Here's the problem I need some help with!

Two wires are parallel, and one is directly above the other. Each has a length of 61.3 m and a mass per unit length of 0.0209 kg/m. However, the tension in wire A is 29.8 x 10^2 N, while the tension in wire B is 3.21 x 10^2 N. Transverse wave pulses are generated simultaneously, one at the left end of wire A and one at the right end of wire B. The pulses travel toward each other. How much time does it take until the pulses pass each other?


I know how to find the velocity of each wave:
v= sqrt (Tension/mass per length)
vA=sqrt (2980/.0209)=377.603 m/s
vB= sqrt (321/.0209)= 123.93 m/s

I just don't know where to go from here. Thanks!
 
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You did the hard part! Just write the position of the two waves and equate them:

v_1 t = L - v_2 t

and solve for t.
 
Thank you! I guess I just thought it would be harder than that to figure out the time so I don't know what I was thinking. But thanks!
 

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