When an earthquake occurs, two types of sound waves are generated and travel through the earth....
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, 117 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?
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When an earthquake occurs, two types of sound waves are
generated and travel through the earth....
Earthquakes generate sound waves inside Earth. Unlike a gas, Earth can experience both transverse (S) and...
Earthquakes generate sound waves inside Earth. Unlike a gas, Earth can experience both transverse (S) and longitudinal (P) sound waves. Typically, the speed of S waves is about 4.5 km/s, and that of P waves 8.0 km/s. A seismo- graph records P and S waves from an earthquake. The first P waves arrive 3.0 min before the first S waves. If the waves travel in a straight line, how far away does the earthquake occur?
Chapter 17, Problem 005 Earthquakes generate sound waves inside Earth. Unlike a gas, Earth can experience...
Chapter 17, Problem 005 Earthquakes generate sound waves inside Earth. Unlike a gas, Earth can experience both transverse (S) and longitudinal (P) sound waves. Typically, the speed of S waves is about 4.14 km/s, and that of P waves 7.84 km/s. A seismograph records P and S waves from an earthquake. The first P waves arrive 1.87 min before the first S waves. If the waves travel in a straight line, how far away does the earthquake occur?
Question 6 (3 points) An earthquake emits both S-waves and P-waves which travel at different speeds...
Question 6 (3 points) An earthquake emits both S-waves and P-waves which travel at different speeds through the earth. An S-wave travels at 5000 m/s and a P-wave travels at 9000 m/s. If S-waves are received at a seismic station one minute after a P-wave arrives, then how far away is the earthquake center? 88.9 km 240 km 480 km 675 km 1200 km
3. Earthquake warning system A typical earthquake produces two types of seismic waves. P ("primary" seismic...
3. Earthquake warning system A typical earthquake produces two types of seismic waves. P ("primary" seismic waves are longitudinal waves that move through the earth's upper crust with speed anywhere from 3 km/s to 5 km/s (the exact speed depends on the local composition of the earth's crust). S ("secondary") waves are transverse waves that move slower than P waves. The S-wave speed is typically about 60% less than the P-wave speed in any given material. The map below shows...
002 10.0 points Earthquakes produce two kinds of seismic waves: he longitudinal primary waves (called P...
002 10.0 points Earthquakes produce two kinds of seismic waves: he longitudinal primary waves (called P waves) and the transverse secondary waves (called S waves). Both S waves and P waves travel through Earth's crust and mantle, but at different speeds; the P waves are always faster than the S waves, but their exact speeds depend on depth and location. For the pur- pose of this exercise, we assume the P wave's speed to be 8380 m/s while the S...
11 In the crust of the earth, seismic waves of the P type have a speed...
11 In the crust of the earth, seismic waves of the P type have a speed of almost 5 km/s; waves of the S type have a speed of about 3 km/s. Suppose that after an earthquake, a seismometer placed at some distance first registers the arrival of P waves and 9 min later the arrival of S waves. What is the distance between the seismometer and the source of the waves?
QUESTION 2 Earthquakes produce several types of shock waves, two of which are called S and...
QUESTION 2 Earthquakes produce several types of shock waves, two of which are called S and P waves. P waves travel at about 6.5 km/s, and S waves travel at about 3.5 km/s. The delay in arrival times between P waves and S waves provides from the measurement station. If a station records a delay of 33 s, how far from the station was the earthquake (ín kilometers? Use two significant figures in your answer. information about how far away...
6. (1 point) 6. From the Oliver room, you are detecting seismic waves on your seismograph....
6. (1 point) 6. From the Oliver room, you are detecting seismic waves on your seismograph. At 12:00, you detect a longitudinal P wave, which travels at 8000 A 12: 01, you detect a transverse S wave, which travels through the earth slower at a speed of 4000 . Assuming that the waves travel in straight lines, how far from you was the earthquake? _(include units)
1. The intensity of a particular earthquake wave is measured to be 1.60 x 106 W/m2...
1. The intensity of a particular earthquake wave is measured to be 1.60 x 106 W/m2 at a distance of 40.0 km from the source. What was the intensity when it passed a point only 1.00 km from the source? Assume that earthquake waves travel uniformly in all directions W/m2 2. The team monitoring a space probe exploring the outer solar system finds that radio transmissions from the probe take 2.10 hours to reach earth. How distant (in meters) is...
An earthquake generates three kinds of waves: surface waves (L-waves), which are the slowest and weakest,...
An earthquake generates three kinds of waves: surface waves (L-waves), which are the slowest and weakest, shear (S) waves, which are transverse waves and earn- most of the energy, and pressure (P) waves, which are longitudinal waves and are the fastest. People do not generally feel the P waves, but animals seem to be sensitive to them. Take the density of the material through which these waves travel to be 2.0 times 10^3 kg/m^3, the Young's modulus to be 9.8 times 10^10 N/m^2,...
Chapter 17, Problem 005 Earthquakes generate sound waves inside Earth. Unlike a gas, Earth can experience both transverse (S) and longitudinal (P) sound waves. Typically, the speed of S waves is about 4.14 km/s, and that of P waves 7.84 km/s. A seismograph records P and S waves from an earthquake. The first P waves arrive 1.87 min before the first S waves. If the waves travel in a straight line, how far away does the earthquake occur?
Question 6 (3 points) An earthquake emits both S-waves and P-waves which travel at different speeds through the earth. An S-wave travels at 5000 m/s and a P-wave travels at 9000 m/s. If S-waves are received at a seismic station one minute after a P-wave arrives, then how far away is the earthquake center? 88.9 km 240 km 480 km 675 km 1200 km
3. Earthquake warning system A typical earthquake produces two types of seismic waves. P ("primary" seismic waves are longitudinal waves that move through the earth's upper crust with speed anywhere from 3 km/s to 5 km/s (the exact speed depends on the local composition of the earth's crust). S ("secondary") waves are transverse waves that move slower than P waves. The S-wave speed is typically about 60% less than the P-wave speed in any given material. The map below shows...
002 10.0 points Earthquakes produce two kinds of seismic waves: he longitudinal primary waves (called P waves) and the transverse secondary waves (called S waves). Both S waves and P waves travel through Earth's crust and mantle, but at different speeds; the P waves are always faster than the S waves, but their exact speeds depend on depth and location. For the pur- pose of this exercise, we assume the P wave's speed to be 8380 m/s while the S...
11 In the crust of the earth, seismic waves of the P type have a speed of almost 5 km/s; waves of the S type have a speed of about 3 km/s. Suppose that after an earthquake, a seismometer placed at some distance first registers the arrival of P waves and 9 min later the arrival of S waves. What is the distance between the seismometer and the source of the waves?
QUESTION 2 Earthquakes produce several types of shock waves, two of which are called S and P waves. P waves travel at about 6.5 km/s, and S waves travel at about 3.5 km/s. The delay in arrival times between P waves and S waves provides from the measurement station. If a station records a delay of 33 s, how far from the station was the earthquake (ín kilometers? Use two significant figures in your answer. information about how far away...
6. (1 point) 6. From the Oliver room, you are detecting seismic waves on your seismograph. At 12:00, you detect a longitudinal P wave, which travels at 8000 A 12: 01, you detect a transverse S wave, which travels through the earth slower at a speed of 4000 . Assuming that the waves travel in straight lines, how far from you was the earthquake? _(include units)
1. The intensity of a particular earthquake wave is measured to be 1.60 x 106 W/m2 at a distance of 40.0 km from the source. What was the intensity when it passed a point only 1.00 km from the source? Assume that earthquake waves travel uniformly in all directions W/m2 2. The team monitoring a space probe exploring the outer solar system finds that radio transmissions from the probe take 2.10 hours to reach earth. How distant (in meters) is...
An earthquake generates three kinds of waves: surface waves (L-waves), which are the slowest and weakest, shear (S) waves, which are transverse waves and earn- most of the energy, and pressure (P) waves, which are longitudinal waves and are the fastest. People do not generally feel the P waves, but animals seem to be sensitive to them. Take the density of the material through which these waves travel to be 2.0 times 10^3 kg/m^3, the Young's modulus to be 9.8 times 10^10 N/m^2,...
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