Lab Activity Locating Epicenters

Similar documents
Earthquake information

How Do Scientists Find the Epicenter of an Earthquake?

Objective: You will learn to interpret a seismogram and, using differences in seismic waves, locate the epicenter of an earthquake.

LAB. Balboa Heights, Panama. Boulder, Colorado. Mexico City, Mexico. Data Table. Difference Between P-wave and S-wave. S-wave Arrival Time

A. Locate the Epicenter

HOW ARE EARTHQUAKES LOCATED?

Earthquake Epicenters

they help tell Earth s story! Regents Earth Science With Ms. Connery

Epicenter - a point, directly above the true center of disturbance, from which the shock waves of an earthquake apparently radiate.

Earthquakes and Seismic Waves Lesson 4 2

5. EARTHQUAKES AND EARTH S INTERIOR

ES REGENTS LAB REVIEW. - Know how to find the p-wave and s-wave arrival times on a seismogram

Integrated Science I: Locating earthquake epicenters. Name Per Date

C) 10:20:40 A) the difference between the arrival times of the P -wave and the S -wave

Earthquake Lab 15.1 Distance to Epicenter and Location of Epicenter

Page 1. Name:

Anatomy of an Earthquake Focus (or hypocentre): the center of energy release.

Name: Date: Bell: The Sumatra Earthquake and Tsunami December 26, 2004

Earthquake Lab Introduction: Purpose: Method: Equipment needed: Fundamental Concepts and Key Terms:

SIMULATED SEISMOGRAMS

EQ Monitoring and Hazards NOTES.notebook. January 07, P-wave. S-wave. surface waves. distance

Earthquakes Packet 5

Please be sure to save a copy of this activity to your computer!

Earthquake Investigation

Earthquake Location regional triangulation with real data

Lab Activity: Weather Variables

Earthquakes Physical Geology 2017 Part 1: Exploring Earthquake distributions. Home butto California Earthquakes: 1) 2) 3) above

1. A model of Earth's internal structure is shown below.

Determining the Earthquake Epicenter: Japan

Figure 2-1. Diagram of earth movements produced by (a) P-waves and (b) S-waves.

Activity Template. Drexel-SDP GK-12 ACTIVITY. Subject Area(s): Sound Associated Unit: Associated Lesson: None

AIM: What are the features of Earthquakes and where are they located? Do Now: What are some words that are associated with earthquakes?

How Do Seismic Waves Travel Through Earth?

Figure Diagram of earth movements produced by (a) P-waves and (b) S-waves.

Earthquakes Modified

Earth Science. Lab 21: Weather Patterns

Figure Diagram of earth movements produced by (a) P-waves and (b) S-waves.

Earthquakes How and Where Earthquakes Occur

LAB 6: Earthquakes & Faults

How Do We Know Where an Earthquake Originated? Teacher's Guide

Practice Packet Topic 2: Measuring Earth

Forces in Earth s Crust

An Earthquake is a rapid vibration or shaking of the Earth s crust created by a release in energy from sudden movement of a part of a plate along a

Dangerous tsunami threat off U.S. West Coast

A. rift valley B. deep trench C. volcanic cone D. uplifted mountain. A. a volcanic island arc B. a large watershed area

Plate Tectonics and Earth s Structure

Seismic Waves NOTES.notebook. January 05, lithosphere. limit. elastic. fault. movement. Fault. fault. all. Seismic waves focus. interior.

RR#8 - Free Response

A Violent Pulse: Earthquakes. Lecture #2

Lab 7: Earthquakes. Figure 7-1. Diagram of earth movements produced by (a) P-waves and (b) S-waves.

Topic 5: The Dynamic Crust (workbook p ) Evidence that Earth s crust has shifted and changed in both the past and the present is shown by:

OCEAN/ESS 410 Lab 4. Earthquake location

Chapt pt 15 er EARTHQUAKES! BFRB P 215 ages -226

NAME: Log onto YouTube and search for jocrisci channel.

Once you have opened the website with the link provided choose a force: Earthquakes

Forces in the Earth s crust

Locating the Epicenter

Slinky Lab- Simulating the Motion of Earthquake Waves.

Activity Sheet 1: Constructions

Earthquakes and Earthquake Hazards Earth - Chapter 11 Stan Hatfield Southwestern Illinois College

Name Date Class. radiate in all directions, carrying some of the. of plate boundaries have different usual patterns of.

OCEAN/ESS 410. Lab 12. Earthquake Focal Mechanisms. You can write your answers to all be (e) on this paper.

Earthquakes. Building Earth s Surface, Part 2. Science 330 Summer What is an earthquake?

LAB 9: Earthquakes & Seismic Activity

Name: Block: Unit 2 Inequalities

ES Ch 19 Earthquakes 1

Section 19.1: Forces Within Earth Section 19.2: Seismic Waves and Earth s Interior Section 19.3: Measuring and Locating.

Earthquakes Earth, 9th edition, Chapter 11 Key Concepts What is an earthquake? Earthquake focus and epicenter What is an earthquake?

ES 104 # 5 EARTHQUAKES:

Name Midterm Review Earth Science Constructed Response

Moho (Mohorovicic discontinuity) - boundary between crust and mantle

Earthquakes and How to Measure Them

Earthquakes Chapter 19

EARTH STRUCTURE & DYNAMICS EARTHQUAKE SEISMOLOGY PRACTICALS. G.R. Foulger

Geophysics 189 Natural Hazards Homework 2 Earthquake Locations and Hazards Due February 15, 2005

Guided Notes Topographic Maps

Forces in Earth s Crust

S e i s m i c W a v e s

Lab Activity Mid-Atlantic Ridge

Module 7: Plate Tectonics and Earth's Structure Topic 4 Content : Earthquakes Presentation Notes. Earthquakes

Earthquakes and Earth s Interior

Earthquakes and How to Measure Them

Dynamic Crust Practice

) in the box next to your answer. (1) (b) Explain why it is difficult to predict when an earthquake will happen. (2)

124b End of Semester Practice Problems. Simplify the radical. 1) ) ) ) 4) ) 5) 5 (-3)5 5)

LAB 3: GLOBAL SEISMOLOGY

Earthquake. What is it? Can we predict it?

Which lettered location has the highest elevation? A) A B) B C) C D) D

Dynamic Crust Regents Review

Lab 11: Earthquakes. Figure 7-1. Diagram of earth movements produced by (a) P-waves and (b) S-waves.

Section Forces Within Earth. 8 th Grade Earth & Space Science - Class Notes

Prentice Hall EARTH SCIENCE

A rock is IGNEOUS if you see...

9.7 Extension: Writing and Graphing the Equations

The continents are in constant! movement! Earth Science!

SEISMOLOGY. - The study of earthquakes waves and how they move through the body and around the surface of the earth.

Topic 12 Review Book Earth s Dynamic Crust and Interior

Earthquakes.

Section 1.4 Circles. Objective #1: Writing the Equation of a Circle in Standard Form.

Three Fs of earthquakes: forces, faults, and friction. Slow accumulation and rapid release of elastic energy.

Transcription:

Lab Activity Locating Epicenters Key Features: Analyzing Seismograms P-waves & S-waves Using ESRT page 11 Drawing Epicenter Circles By Kaitlin Coder https://www.teacherspayteachers.com/store/nys-earth-science-and-living-environment-regents

Name: Earth Science Date: Period: Lab# Locating the Epicenter of an Earthquake Introduction: Seismographs are used to detect and record earthquake waves both P-waves and S-waves. Because P- waves and S-waves travel at different speeds, they reach the seismic stations at different times. The difference in the arrival times between the P-wave and the S-wave can be used to find the epicenter s distance from the seismic station. This distance becomes the radius of a circle which is drawn on a map. This is illustrated below. To locate the epicenter of the earthquake, a minimum of 3 circles from three different seismic stations must be drawn on the map. The intersection of the three circles shows the location of the epicenter on the map. This is illustrated below. Objective: In this activity, you will use analyze P-wave and S-wave recordings on a seismogram to determine the distance to the epicenter of an earthquake from a given seismic station. You will locate the epicenter of the earthquake using a map.

EARTHQUAKE 1 Procedure: 1. For each station, determine the information listed below. Record your answer in Table 1. a. Arrival time of the P-wave b. Arrival time of the S-wave c. Difference in the arrival time d. Distance to the epicenter of the earthquake (Use the graph on ESRT page 11 to determine distance based on the difference in the arrival time between P-wave and S-wave) e. Travel time of the P-wave for that distance f. Time of Origin (subtract: Arrival time of P-wave Travel time of P-wave) Seismograph Station Arrival (clock time) P-wave S-wave Table 1 Difference in Arrival Time (min and sec) Distance to Epicenter (km) P-Wave Travel Time (min and sec) Time of Origin (hour:min:sec) Denver Dallas Salt Lake City 2. On the map labeled Earthquake 1, the locations of Denver, Dallas, and Salt Lake City are labeled. This map also shows the locations of other cities in the United States. Use the distances determined in Table 1 above to represent the radius of the circle. Open your drawing compass to this distance by using the scale of kilometers on the map. Draw a circle for each station. 3. Draw an X at the location of the epicenter of this earthquake. 4. Name the city closest to the epicenter of this earthquake.

EARTHQUAKE 2 Procedure: 1. For each station, determine the information listed below. Record your answer in Table 2. a. Arrival time of the P-wave b. Arrival time of the S-wave c. Difference in the arrival time d. Distance to the epicenter of the earthquake (Use the graph on ESRT page 11 to determine distance based on the difference in the arrival time between P-wave and S-wave) e. Travel time of the P-wave for that distance f. Time of Origin (subtract: Arrival time of P-wave Travel time of P-wave) Seismograph Station Arrival (clock time) P-wave S-wave Table 2 Difference in Arrival Time (min and sec) Distance to Epicenter (km) P-Wave Travel Time (min and sec) Time of Origin (hour:min:sec) Dallas Chicago Miami 2. On the map labeled Earthquake 2, the locations of Dallas, Chicago, and Miami are labeled. This map also shows the locations of other cities in the United States. Use the distances determined in Table 2 above to represent the radius of the circle. Open your drawing compass to this distance by using the scale of kilometers on the map. Draw a circle for each station. 3. Draw an X at the location of the epicenter of this earthquake. 4. Name the city closest to the epicenter of this earthquake.

EARTHQUAKE 3 Procedure: 1. For each station, determine the information listed below. Record your answer in Table 3. a. Arrival time of the P-wave b. Arrival time of the S-wave c. Difference in the arrival time d. Distance to the epicenter of the earthquake (Use the graph on ESRT page 11 to determine distance based on the difference in the arrival time between P-wave and S-wave) e. Travel time of the P-wave for that distance f. Time of Origin (subtract: Arrival time of P-wave Travel time of P-wave) Seismograph Station Arrival (clock time) P-wave S-wave Table 3 Difference in Arrival Time (min and sec) Distance to Epicenter (km) P-Wave Travel Time (min and sec) Time of Origin (hour:min:sec) Phoenix Rochester Duluth 2. On the map labeled Earthquake 3, the locations of Phoenix, Rochester, and Duluth are labeled. This map also shows the locations of other cities in the United States. Use the distances determined in Table 3 above to represent the radius of the circle. Open your drawing compass to this distance by using the scale of kilometers on the map. Draw a circle for each station. 3. Draw an X at the location of the epicenter of this earthquake. 4. Name the city closest to the epicenter of this earthquake.

Discussion Questions 1. Are earthquakes predictable? Explain your answer. 2. What is the minimum number of seismic stations necessary to locate an epicenter? 3. How can you determine the epicenter of an earthquake using data from seismic stations worldwide? 4. What happens to the time differences between P- and S-waves as your distance from the epicenter increases? 5. Compare the differences in velocity of P- and S-waves. 6. What state(s) of matter do P-waves travel through? 7. What state(s) of matter do S-waves travel through? 8. What are the two different scales used to determine the severity of earthquakes? Explain the differences between these scales.

EARTHQUAKE 1 Distance in Kilometers

EARTHQUAKE 2 Distance in Kilometers

EARTHQUAKE 3 Distance in Kilometers

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback