When an earthquake occurs, two types of sound waves are generated and travel through the earth. The primary, or P, wave has a speed of about 8.0 km/s and the secondary, or S, wave has a speed of about 4.5 km/s. A seismograph, located some distance away, records the arrival of the P wave and then, 95.7 s later, records the arrival of the S wave. Assuming that the waves travel in a straight line, how far (in terms of m) is the seismograph from the earthquake?

asked by Anonymous

10 years ago

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1 answer

Dp = Ds
Vp*T = Vs*(T+95.7)
8*T = 4.5*(T+95.7)
8T = 4.5T+430.65
8T-4.5T = 430.65
3.5T = 430.65
T = 123 s.

D = Vp*T = 8 * 123 = 984 km.

answered by Henry

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Question

When an earthquake occurs, two types of sound waves are generated and travel through the earth. The primary, or P, wave has a speed of about 8.0 km/s and the secondary, or S, wave has a speed of about 4.5 km/s. A seismograph, located some distance away, records the arrival of the P wave and then, 95.7 s later, records the arrival of the S wave. Assuming that the waves travel in a straight line, how far (in terms of m) is the seismograph from the earthquake?

1 answer

Dp = Ds
Vp*T = Vs*(T+95.7)
8*T = 4.5*(T+95.7)
8T = 4.5T+430.65
8T-4.5T = 430.65
3.5T = 430.65
T = 123 s.

D = Vp*T = 8 * 123 = 984 km.

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Henry · Accepted Answer

Dp = Ds Vp*T = Vs*(T+95.7) 8*T = 4.5*(T+95.7) 8T = 4.5T+430.65 8T-4.5T = 430.65 3.5T = 430.65 T = 123 s. D = Vp*T = 8 * 123 = 984 km.