Presentation is loading. Please wait.

Presentation is loading. Please wait.

Earthquakes Shake, rattle and roll

Published byHarry Lyons Modified over 6 years ago

Similar presentations

Presentation on theme: "Earthquakes Shake, rattle and roll"— Presentation transcript:

1 Earthquakes Shake, rattle and roll
Year 9 Science – Seaview High School

2 Tremors from below Movement in the Earth’s crust result in earthquakes. These can originate as far as 700 km below the surface. We call the resultant vibrations at the surface, tremors. Some tremors are too weak to be felt When they are sudden and strong, we call them earthquakes.

3 Earthquakes Major quakes occur at or near plate boundaries.
Plates can be: Pushing against each other in subduction zones Spreading apart to form ocean ridges and new underwater volcanoes and volcanic islands Slipping and sliding against each other causing sudden jolts

4 Location Wherever there is a weakness in the Earth’s crust, tremors are likely to occur. Faults provide such weaknesses Write this in your book now: The epicentre of an earthquake is directly above the point below the surface where the movement in the crust began. The point where the earthquake begins is called the focus.

5 Measuring earthquakes
Movements are recorded with a seismograph. There are a number of ways the strength of an earthquake can be measured The most well-known way is using the Richter scale A modern seismometer Seismograph of the 2004 earthquake which resulted in the devastating Boxing Day tsunami

6 Richter scale The Richter scale measures the energy released during an earthquake A measurement of less than 2.0 is called a microquake and is rarely detected by people. Measurements greater than 5.0 are detectable and may cause objects on shelves to move or rattle Every increase of 1.0 on the Richter scale represents an increase of 30 times as much energy So a 6.0 releases 30 times as much energy as a 5.0 A 7.0 releases 900 times as much as a 5.0 (30x30)

7 The Richter scale

8 The Richter scale Richter scale measurments are not always good indicators of destructive power. A small earthquake with an epicentre in or near a city may cause many deaths, injuries and a lot of damage (cut of water, electricity, gas supplies). Large earthquakes in remote areas often have little affect causing few injuries and little damage. Earthquake damage to a rail line Damage caused by the 2010 Haiti quake, which measured 7.0 on the Richter scale with at least 52 after shocks over 4.5

9 Destructive power Destructive power depends on the distance from the epicentre In 1988 a 6.7 magnitude earthquake in Tennant Creek, NT, resulted in damage to 2 buildings and a gas pipeline. In 1989 a 5.6 magnitude earthquake in Newcastle, NSW, killed 13 people, hospitalised 160 others, demolished 300 buildings and damaged lots more. The difference was the distance from the epicentre Tennant Creek was 40 km from the epicentre Newcastle was only 5 km from the epicentre

10 1989 Newcastle quake

11 Living on the edge For people living near plate boundaries, the ability of scientists (seismologists) to predict earthquakes and tsunamis is critical. This is particularly the case for people living around the Pacific Ocean. While the exact location, time and size of a quake is very hard to predict, sensors can monitor movement along plate boundaries and fault lines. These monitors can inform seismologists about pressure build ups and warn of the likelihood of a quake. No reliable early warning system currently exists.

12 Deep-ocean Assessment and Reporting of Tsunamis
Seismologists are experimenting with a variety of methods including satellites, sensors and even animal behaviour. Tsunami early warning systems are reliant on the early detection of earthquakes. There is a system of buoys around the Pacific and Atlantic Oceans to assist with early detection. The DART system. This system detects sudden rises in sea level and sends alerts to tsunami warning centres.

13 DART locations

14 Waves of destruction If an earthquake occurs beneath the ocean, tsunami waves can be generated. These waves travel at speeds of up to 900 km/h As the waves approach the land and the water gets shallower, the waves slow down and build in height (up to around 40m have been recorded).

15 Recent tsunamis The potential for damage was made obvious by two recent tsunamis. The Boxing Day tsunami of 2004 The Sendai (Japan) tsunami of 2011

16 Boxing Day tsunami of 2004 The Sumatra-Andaman tsunami
Around 300,000 people across South-East Asia, southern Asia and eastern Africa died. Millions lost their homes. 250 km from the coast of Sumatra, Indonesia. 9.0 on the Richter scale. Pushed a 1000 km long strip of ocean floor up around 30 metres. Damage occurred up to around 5000 km from the epicentre of the earthquake (Somalia, Kenya and Tanzania).

17 Sendai tsunami, March 2011 Magnitude of 9.0 on Richter scale
Epicentre was 70 km off the Japanese coast. In the city of Sendai alone, at least 670 people were killed and 2200 injured. Around 6900 homes were totally destroyed and many more damaged. Waves of up to 40 metres high recorded. Reached as far as 10 km inland in some places. The unfortunate proximity to the Fukushima nuclear plant compounded the problem with damage causing meltdowns in three of the reactors at the Fukushima Daiichi Power Plant.

Download ppt "Earthquakes Shake, rattle and roll"

Similar presentations

PLATE TECTONICS IN THE ZONE DAMAGE SEISMIC WAVES 1pt 1 pt 1 pt 1pt

PLATE TECTONICS IN THE ZONE DAMAGE SEISMIC WAVES 1pt 1 pt 1 pt 1pt
Exploring Earthquakes By: Jordyn Friel and Kylie Edens.

Exploring Earthquakes By: Jordyn Friel and Kylie Edens.
1A2 Geography 10 th February 2015 Objectives: To introduce students to the causes and effects of earthquake activity. To briefly explain measures taken.

1A2 Geography 10 th February 2015 Objectives: To introduce students to the causes and effects of earthquake activity. To briefly explain measures taken.
TSUNAMI BY :KARISSA SHAMAH +

TSUNAMI BY :KARISSA SHAMAH +
Earth Science Fall 2013.  Earthquake- vibration of the earth’s crust Usually occur when rocks under stress suddenly shift along a fault.

Earth Science Fall  Earthquake- vibration of the earth’s crust Usually occur when rocks under stress suddenly shift along a fault.
7.1 Rocks Move Along Faults

7.1 Rocks Move Along Faults
Earthquakes and Volcanoes. Earthquakes An earthquake is the shaking and trembling that results from the sudden movement of part of the Earth’s crust.

Earthquakes and Volcanoes. Earthquakes An earthquake is the shaking and trembling that results from the sudden movement of part of the Earth’s crust.
Question: Explain how the study of plate tectonics helps us to understand the occurrence of earthquakes.

Question: Explain how the study of plate tectonics helps us to understand the occurrence of earthquakes.
Earthquakes and Volcanoes. Earthquakes An earthquake is the shaking and trembling that results from the sudden movement of part of the Earth’s crust.

Earthquakes and Volcanoes. Earthquakes An earthquake is the shaking and trembling that results from the sudden movement of part of the Earth’s crust.
EARTHQUAKE An earthquake is a sudden, rapid shaking of the Earth caused by the release of energy stored in rocks. An earthquake is a sudden, rapid shaking.

EARTHQUAKE An earthquake is a sudden, rapid shaking of the Earth caused by the release of energy stored in rocks. An earthquake is a sudden, rapid shaking.
Earthquakes A Whole Lot of shakin’ going on!. What are Earthquakes and where do they occur? Seismology is the study of earthquakes. Seismology is the.

Earthquakes A Whole Lot of shakin’ going on!. What are Earthquakes and where do they occur? Seismology is the study of earthquakes. Seismology is the.
General Science. What is an Earthquake?  Earthquakes are one of the most powerful natural forces  Shaking and vibration at the surface of the earth.

General Science. What is an Earthquake?  Earthquakes are one of the most powerful natural forces  Shaking and vibration at the surface of the earth.
Earthquakes happen where Earth's plates meet. Most earthquakes happen under the sea. Where the plates stick, pressure builds up and then the earth shakes.

Earthquakes happen where Earth's plates meet. Most earthquakes happen under the sea. Where the plates stick, pressure builds up and then the earth shakes.
Earthquakes Sudden movement of surface when accumulated strain along opposing sides of a fault is suddenly released. Rock stretches and snaps.

Earthquakes Sudden movement of surface when accumulated strain along opposing sides of a fault is suddenly released. Rock stretches and snaps.
WHAT CAUSES EARTHQUAKES AND VOLCANOES Chapter 8 Section 4.

WHAT CAUSES EARTHQUAKES AND VOLCANOES Chapter 8 Section 4.
Planet EarthSection 2 What are Earthquakes? 〉 Where do most earthquakes occur? 〉 By looking at maps showing past seismic activity, one can see that earthquakes.

Planet EarthSection 2 What are Earthquakes? 〉 Where do most earthquakes occur? 〉 By looking at maps showing past seismic activity, one can see that earthquakes.
Earthquakes & Tsunamis. Earthquakes are a shaking of the ground. Some are slight tremors that barely rock a cradle. Others are so violent they can tear.

Earthquakes & Tsunamis. Earthquakes are a shaking of the ground. Some are slight tremors that barely rock a cradle. Others are so violent they can tear.
Causes of earthquakes An earthquake is defined as the shaking of the earth’s crust Can be large or small Earthquakes occur when energy is suddenly released.

Causes of earthquakes An earthquake is defined as the shaking of the earth’s crust Can be large or small Earthquakes occur when energy is suddenly released.
Earthquakes, Volcanoes, and Tsunamis. Earthquakes Fault: a break in the Earth’s crust. Blocks of the crust slide past each other along fault lines. When.

Earthquakes, Volcanoes, and Tsunamis. Earthquakes Fault: a break in the Earth’s crust. Blocks of the crust slide past each other along fault lines. When.
Rocks Move along Faults

Rocks Move along Faults

Similar presentations

Ads by Google