logging in or signing up How To Use The Earthquake Travel Time Graph davgen Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 24 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 29, 2012 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: How to Use an Earthquake Travel Time Graph An Earthquake Travel Time Graph can be used to find several different variables. Let’s start with: TRAVEL TIME or DISTANCE from EPICENTER (Given one, find the other) Sample Problem: A seismic station is 3000 kilometers from the epicenter of an earthquake. How long will it take P waves from this earthquake to reach the seismic station? You must always ask yourself two questions: 1) What information do I have? 2) What information am I looking for? If you don’t know what you’re looking for it’s very unlikely that you’ll find it! 3000 kilometers from the epicenter How long (time)PowerPoint Presentation: We know the distance (3000km) We’re trying to find the time it will take P waves to travel this distance. Find 3 (really 3000km) on the bottom axis and, using a straight edge (a ruler) draw a line up to meet the P wave line. Now, using the ruler, draw a line over to the left axis and read the travel time: 5 minutes and 40 seconds. Notice that each small box is worth 20 seconds. Now try the same problem in reverse: It takes P waves 5 minutes and 40 seconds to travel from an epicenter to a seismic station. How far is the seismic station from the epicenter?PowerPoint Presentation: We know the P wave travel time: 5 minutes and 40 seconds. We are trying to find the distance between the epicenter and the seismic station. Using a ruler, draw a line from the time (5:40) to the P wave line. Now draw a line straight down to the bottom axis and read the distance............. 3000 kilometers! All of these problems are the same. Given the time, find the distance. Given the distance, find the time. And it doesn’t matter whether you are given P or S wave travel time as long as you are careful to use the correct line and, most important: TAKE THE TIME TO BE CAREFUL AND ACCURATE!PowerPoint Presentation: Let’s take this one step further. A seismic station is 3000 km from the epicenter of an earthquake. If P waves from that quake arrive at the station at 4:25:40 PM (4 hours, 25 minutes and 40 seconds), at what time did the earthquake occur? We do exactly the same thing we did before, we find the travel time which is 5:40 (5 minutes, 40 sec.) Now some math. If the waves arrived at 4:25:40 and they’ve been traveling for 5:40, when did they start out? Subtract: 4:25:40 5:40 ------------ 4:20:00 The quake occurred at 4:20:00 PMPowerPoint Presentation: OK, let’s try another type of problem involving both P and S waves. Here’s an example........................... It takes P waves 7:20 (7 minutes and 20 seconds) to travel from an earthquake epicenter to a seismic station. How long will it take S waves from the same earthquake to reach the seismic station? What do we know? We know P wave travel time is 7:20 What are we trying to find? We want to find S wave travel time. Do we have enough information to do the problem? NO! We have to divide the problem into 2 parts. First, we do just what we did in the previous problem. We use the P wave travel time to find the distance to the seismic station and then................................. We use the distance to the seismic station to find how long it took S waves to travel that same distance. Let’s see how it’s done....................................PowerPoint Presentation: We know P wave travel time is 7:20 so, using a ruler , draw a line from 7:20 over to the P wave line. Now draw a line straight down to find the distance from the epicenter......... The distance is 4200 km. Notice that each small box on the bottom axis is 200 km. Now we can get on with the second half of the problem. If the seismic station is 4200 km from the quake epicenter, how long (time) did it take the S waves to travel that same distance? Draw a line from 4200 km straight up to the S wave line. Now draw a line over to the vertical axis and read the time.......... 13 minutes exactly (13:00) And now for something completely different.......................PowerPoint Presentation: Another type of question involves the “ difference in travel time between P waves and S waves”. Whenever you are given the difference in arrival times OR you are given both times so that you can subtract and find the difference , you should immediately realize that you will be dealing with the shaded area (yellow) between the two lines. Here’s a sample problem: P waves arrive at a seismic station 4:30 (4 minutes, 30 seconds) before the arrival of S waves from the same earthquake. How far from the epicenter is the seismic station?PowerPoint Presentation: Here’s what you know: P & S waves arrive at a seismic station 4 minutes and 30 seconds (4:30) apart. You are asked to find the distance to the epicenter. Here’s how: 1) Take a sheet of paper and line up the left edge with the vertical axis (time). Be sure that most of the paper is hanging down below the graph. This is important. 2) Make a small, thin, and accurate mark on the paper at 0 time. Make another small, thin, and accurate , mark at 4:30 (4 minutes, 30 seconds). Your 2 marks are now 4:30 apart!PowerPoint Presentation: Now slide your paper to the right until one of your marks is exactly on the S wave line and the other is exactly on the P wave line. It is very important to be sure your paper is straight (vertical). Now look to see where the bottom of your paper crosses the lower (epicenter distance) axis. In this case it crosses at exactly 3000 km which is the answer. When P & S waves arrive 4 minutes apart it means that the seismic station is exactly 3000 km from the epicenter of the quake. Of course we can do the same problem in reverse!PowerPoint Presentation: A seismic station is 3000 km from the epicenter of an earthquake. How long after P waves arrive will S waves from the same earthquake arrive at the station? This time place your paper on the 3000 km mark taking care to keep the paper straight and to cover both the P and S wave lines. Make small, thin, and accurate marks where your paper crosses the P line and the S line. Then..............................PowerPoint Presentation: Slide your paper to the left so that your lower mark is on time 0. Now just read the time indicated by your top most mark: 4:30 (4 minutes and 30 seconds) which is the answer. This kind of question may also be phrased this way: “P waves arrive at a seismic station at 12:32:00. S waves from the same earthquake arrive at 12:36:30. How far from the epicenter is the seismic station? All you need to do is subtract in order to get the difference in arrival times. 12:36:30 - 12:32:00 ---------------- 00:04:30 0 hours, 4 minutes, and 30 seconds. Just remember, if you’re given 2 times, just subtract to get the difference.PowerPoint Presentation: One last kind of problem to become familiar with. Sometimes, instead of giving you the difference in arrival times, you will be given a seismogram (a record made by a seismograph) instead. Using this seismogram find when the P waves and the S waves arrive. Do this by carefully making a mark at the P wave and S wave arrival times. Now count the number of minutes between the arrival of P and S waves at the station. From this point on it’s just like the previous problem: If the difference in arrival times between P and S waves is 6 minutes, how far is the seismic station from the epicenter of the earthquake?PowerPoint Presentation: Using the seismogram (on the previous page) you determined that P & S waves arrived at a seismic station 6 minutes apart. Place your paper along the vertical axis (time) and make small and accurate marks at time 0 and time 6. Remember to keep most of the paper hanging down below the graph.PowerPoint Presentation: Now slide your paper until one mark is on the S wave line and the other is on the P wave line. Be absolutely sure that your paper is straight (vertical). Read the distance at the point where the edge of the paper crosses the bottom (distance) axis. Remember that each small box is 200 km. The answer is............ 4400 km! That all there is to it. But doing this once or twice won’t help. The ONLY way to get good at anything is to practice, practice and then practice some more! You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
How To Use The Earthquake Travel Time Graph davgen Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 24 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 29, 2012 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: How to Use an Earthquake Travel Time Graph An Earthquake Travel Time Graph can be used to find several different variables. Let’s start with: TRAVEL TIME or DISTANCE from EPICENTER (Given one, find the other) Sample Problem: A seismic station is 3000 kilometers from the epicenter of an earthquake. How long will it take P waves from this earthquake to reach the seismic station? You must always ask yourself two questions: 1) What information do I have? 2) What information am I looking for? If you don’t know what you’re looking for it’s very unlikely that you’ll find it! 3000 kilometers from the epicenter How long (time)PowerPoint Presentation: We know the distance (3000km) We’re trying to find the time it will take P waves to travel this distance. Find 3 (really 3000km) on the bottom axis and, using a straight edge (a ruler) draw a line up to meet the P wave line. Now, using the ruler, draw a line over to the left axis and read the travel time: 5 minutes and 40 seconds. Notice that each small box is worth 20 seconds. Now try the same problem in reverse: It takes P waves 5 minutes and 40 seconds to travel from an epicenter to a seismic station. How far is the seismic station from the epicenter?PowerPoint Presentation: We know the P wave travel time: 5 minutes and 40 seconds. We are trying to find the distance between the epicenter and the seismic station. Using a ruler, draw a line from the time (5:40) to the P wave line. Now draw a line straight down to the bottom axis and read the distance............. 3000 kilometers! All of these problems are the same. Given the time, find the distance. Given the distance, find the time. And it doesn’t matter whether you are given P or S wave travel time as long as you are careful to use the correct line and, most important: TAKE THE TIME TO BE CAREFUL AND ACCURATE!PowerPoint Presentation: Let’s take this one step further. A seismic station is 3000 km from the epicenter of an earthquake. If P waves from that quake arrive at the station at 4:25:40 PM (4 hours, 25 minutes and 40 seconds), at what time did the earthquake occur? We do exactly the same thing we did before, we find the travel time which is 5:40 (5 minutes, 40 sec.) Now some math. If the waves arrived at 4:25:40 and they’ve been traveling for 5:40, when did they start out? Subtract: 4:25:40 5:40 ------------ 4:20:00 The quake occurred at 4:20:00 PMPowerPoint Presentation: OK, let’s try another type of problem involving both P and S waves. Here’s an example........................... It takes P waves 7:20 (7 minutes and 20 seconds) to travel from an earthquake epicenter to a seismic station. How long will it take S waves from the same earthquake to reach the seismic station? What do we know? We know P wave travel time is 7:20 What are we trying to find? We want to find S wave travel time. Do we have enough information to do the problem? NO! We have to divide the problem into 2 parts. First, we do just what we did in the previous problem. We use the P wave travel time to find the distance to the seismic station and then................................. We use the distance to the seismic station to find how long it took S waves to travel that same distance. Let’s see how it’s done....................................PowerPoint Presentation: We know P wave travel time is 7:20 so, using a ruler , draw a line from 7:20 over to the P wave line. Now draw a line straight down to find the distance from the epicenter......... The distance is 4200 km. Notice that each small box on the bottom axis is 200 km. Now we can get on with the second half of the problem. If the seismic station is 4200 km from the quake epicenter, how long (time) did it take the S waves to travel that same distance? Draw a line from 4200 km straight up to the S wave line. Now draw a line over to the vertical axis and read the time.......... 13 minutes exactly (13:00) And now for something completely different.......................PowerPoint Presentation: Another type of question involves the “ difference in travel time between P waves and S waves”. Whenever you are given the difference in arrival times OR you are given both times so that you can subtract and find the difference , you should immediately realize that you will be dealing with the shaded area (yellow) between the two lines. Here’s a sample problem: P waves arrive at a seismic station 4:30 (4 minutes, 30 seconds) before the arrival of S waves from the same earthquake. How far from the epicenter is the seismic station?PowerPoint Presentation: Here’s what you know: P & S waves arrive at a seismic station 4 minutes and 30 seconds (4:30) apart. You are asked to find the distance to the epicenter. Here’s how: 1) Take a sheet of paper and line up the left edge with the vertical axis (time). Be sure that most of the paper is hanging down below the graph. This is important. 2) Make a small, thin, and accurate mark on the paper at 0 time. Make another small, thin, and accurate , mark at 4:30 (4 minutes, 30 seconds). Your 2 marks are now 4:30 apart!PowerPoint Presentation: Now slide your paper to the right until one of your marks is exactly on the S wave line and the other is exactly on the P wave line. It is very important to be sure your paper is straight (vertical). Now look to see where the bottom of your paper crosses the lower (epicenter distance) axis. In this case it crosses at exactly 3000 km which is the answer. When P & S waves arrive 4 minutes apart it means that the seismic station is exactly 3000 km from the epicenter of the quake. Of course we can do the same problem in reverse!PowerPoint Presentation: A seismic station is 3000 km from the epicenter of an earthquake. How long after P waves arrive will S waves from the same earthquake arrive at the station? This time place your paper on the 3000 km mark taking care to keep the paper straight and to cover both the P and S wave lines. Make small, thin, and accurate marks where your paper crosses the P line and the S line. Then..............................PowerPoint Presentation: Slide your paper to the left so that your lower mark is on time 0. Now just read the time indicated by your top most mark: 4:30 (4 minutes and 30 seconds) which is the answer. This kind of question may also be phrased this way: “P waves arrive at a seismic station at 12:32:00. S waves from the same earthquake arrive at 12:36:30. How far from the epicenter is the seismic station? All you need to do is subtract in order to get the difference in arrival times. 12:36:30 - 12:32:00 ---------------- 00:04:30 0 hours, 4 minutes, and 30 seconds. Just remember, if you’re given 2 times, just subtract to get the difference.PowerPoint Presentation: One last kind of problem to become familiar with. Sometimes, instead of giving you the difference in arrival times, you will be given a seismogram (a record made by a seismograph) instead. Using this seismogram find when the P waves and the S waves arrive. Do this by carefully making a mark at the P wave and S wave arrival times. Now count the number of minutes between the arrival of P and S waves at the station. From this point on it’s just like the previous problem: If the difference in arrival times between P and S waves is 6 minutes, how far is the seismic station from the epicenter of the earthquake?PowerPoint Presentation: Using the seismogram (on the previous page) you determined that P & S waves arrived at a seismic station 6 minutes apart. Place your paper along the vertical axis (time) and make small and accurate marks at time 0 and time 6. Remember to keep most of the paper hanging down below the graph.PowerPoint Presentation: Now slide your paper until one mark is on the S wave line and the other is on the P wave line. Be absolutely sure that your paper is straight (vertical). Read the distance at the point where the edge of the paper crosses the bottom (distance) axis. Remember that each small box is 200 km. The answer is............ 4400 km! That all there is to it. But doing this once or twice won’t help. The ONLY way to get good at anything is to practice, practice and then practice some more!