Answer Time Speed Problems: Calculate Distance from Earthquake

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The discussion focuses on calculating the distance to an earthquake using the speeds of transverse and longitudinal waves. The transverse waves travel at 6.17 km/s, while longitudinal waves travel at 10.3039 km/s, with a recorded arrival time difference of 60.8 seconds. To find the distance, one can use the relationship between speed, distance, and time, applying the formula s = D/t. By setting up equations for the travel times of both wave types and equating their difference to 60.8 seconds, the distance can be determined. This method emphasizes the use of translational kinematics to solve the problem effectively.
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Ok well I've had a bit of trouble understanding this question

The velocity of the transverse waves produced by an earthquake is 6.17 km/s, while that of the longitudinal waves is 10.3039 km/s. A seismograph records the arival of the transverse waves 60.8 s after that of the longitudinal waves.
How far away was the earthquake? Answer in units of km

Yea i guess i just don't understand the way it's setup or something.
 
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We do ask that you show an attempt at a problem, but:

We assume that the waves started at the same point at the same time. You know the difference in speeds. Given that, if you assume they traveled for an hour, you could figure out how far ahead the faster was than the slower, right? From that, you could figure out how long it would take for the slower wave to reach the point where the faster wave is. All you really have to do is work it backwards from there.

Does that help?
 
Treate that both rays are like objects that start from a common point , their velocities are given which remain constant , and the difference in arrival times at a distance 's' are given . Apply Translational Kinematics and show your work.

BJ
 
Since you are asked "How far away was the earthquake?", let D= distance to the earthquake, in km. The information you are given concerns time. How is time related to distance? Well, speed equals distance over time and you are told the speed- from s= D/t, t= D/s. For transverse waves speed= 6.17 km/s so to travel distance D requires D/6.17 seconds. For longitudinal waves speed 10.3039 km/s (it seems strange that they would give one speed to 3 significant figures and the other to 6!) so to travel distance D requires D/10.3039 seconds. You are told that the DIFFERENCE between those two times is 60.8 seconds.
 
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