1. The Earth’s Crust Is Made Up of a Mosaic of Huge Rigid Plates: Tectonic Plates

2. Some Parts of the Earth’s Surface Build Up and Some Wear Down
Internal geologic processes
External geologic processes
Weathering

3. Some Parts of the Earth’s Surface Build Up and Some Wear Down
Erosion:
Wind
Flowing water
Human activities
Glaciers

7. Weathering: Biological, Chemical, and Physical Processes

8. Volcanoes Release Molten Rock from the Earth’s Interior
Fissure
Magma
Lava
1980: Eruption of Mount St. Helens
1991: Eruption of Mount Pinatubo
Benefits of volcanic activity

9. Creation of a Volcano

10. Partially molten asthenosphere
Extinct volcanoes
Eruption cloud
Ash
Acid rain
Ash flow
Lava flow
Mud flow
Central vent
Landslide
Magma conduit
Magma reservoir
Figure 14.7
A volcano is created when magma in the partially molten asthenosphere rises in a plume through the lithosphere to erupt on the surface as lava, which builds a cone. Sometimes, internal pressure is high enough to cause lava, ash, and gases to be ejected into the atmosphere or to flow over land, causing considerable damage (Concept 14-1B). Chains of islands have been created by volcanoes that erupted and then became inactive.
Solid lithosphere
Upwelling magma
Partially molten asthenosphere
Fig. 14-7, p. 349

11. Figure 14.7
A volcano is created when magma in the partially molten asthenosphere rises in a plume through the lithosphere to erupt on the surface as lava, which builds a cone. Sometimes, internal pressure is high enough to cause lava, ash, and gases to be ejected into the atmosphere or to flow over land, causing considerable damage (Concept 14-1B). Chains of islands have been created by volcanoes that erupted and then became inactive.

12. Figure 14.7
A volcano is created when magma in the partially molten asthenosphere rises in a plume through the lithosphere to erupt on the surface as lava, which builds a cone. Sometimes, internal pressure is high enough to cause lava, ash, and gases to be ejected into the atmosphere or to flow over land, causing considerable damage (Concept 14-1B). Chains of islands have been created by volcanoes that erupted and then became inactive.

13. Figure 14.7
A volcano is created when magma in the partially molten asthenosphere rises in a plume through the lithosphere to erupt on the surface as lava, which builds a cone. Sometimes, internal pressure is high enough to cause lava, ash, and gases to be ejected into the atmosphere or to flow over land, causing considerable damage (Concept 14-1B). Chains of islands have been created by volcanoes that erupted and then became inactive.

14. Earthquakes Are Geological Rock-and-Roll Events (1)
Seismic waves
Focus
Epicenter
Magnitude:
Amplitude

15. Earthquakes Are Geological Rock-and-Roll Events (2)
Richter scale
Insignificant: <4.0
Minor: 4.0–4.9
Damaging: 5.0–5.9
Destructive: 6.0–6.9
Major: 7.0–7.9
Great: >8.0

16. Earthquakes Are Geological Rock-and-Roll Events (3)
Foreshocks and aftershocks
Primary effects of earthquakes

21. Major Features and Effects of an Earthquake

22. Liquefaction of recent sediments causes buildings to sink
Two adjoining plates move laterally along the fault line
Earth movements cause flooding in low-lying areas
Landslides may occur on hilly ground
Figure 14.8
Major features and effects of an earthquake, one of nature’s most powerful events.
Shock waves
Focus
Epicenter
Fig. 14-8, p. 350

23. Areas of Greatest Earthquake Risk in the United States

24. Highest risk Lowest risk Figure 14.9
Areas of greatest earthquake (seismic) risk in the United States. Question: What is the degree of risk where you live or go to school? (Data from U.S. Geological Survey)
Lowest risk
Fig. 14-9, p. 350

25. Areas of Greatest Earthquake Risk in the World

26. Earthquakes on the Ocean Floor Can Cause Huge Waves Called Tsunamis
Tsunami, tidal wave
Detection of tsunamis
December 2004: Indian Ocean tsunami
Magnitude of 9.15
Role of coral reefs and mangrove forests in reducing death toll

27. Formation of a Tsunami and Map of Affected Area of Dec 2004 Tsunami

28. Undersea thrust fault Upward wave Bangladesh India Burma Thailand
Earthquake in seafloor swiftly pushes water upwards, and starts a series of waves
Waves move rapidly in deep ocean reaching speeds of up to 890 kilometers per hour.
As the waves near land they slow to about 45 kilometers per hour but are squeezed upwards and increased in height.
Waves head inland causing damage in their path.
Undersea thrust fault
Upward wave
Bangladesh
India
Burma
Figure 14.11
Formation of a tsunami and map of area affected by a large tsunami in December 2004.
Thailand
Malaysia
Sri Lanka
Earthquake
Indonesia
Sumatra
December 26, 2004, tsunami
Fig , p. 352

29. Shore near Gleebruk in Indonesia before and after the Tsunami on June 23, 2004

30. Gravity and Earthquakes Can Cause Landslides
Mass wasting
Slow movement
Fast movement
Rockslides
Avalanches
Mudslides
Effect of human activities on such geological events

31. 14-2 How Are the Earth’s Rocks Recycled?
Concept The three major types of rocks found in the earth’s crust—sedimentary, igneous, and metamorphic—are recycled very slowly by the process of erosion, melting, and metamorphism.

32. There Are Three Major Types of Rocks (1)
Earth’s crust
Composed of minerals and rocks
Three broad classes of rocks, based on formation
Sedimentary
Sandstone
Shale
Dolomite
Limestone
Lignite
Bituminous coal

33. There Are Three Major Types of Rocks (2)
Igneous
Granite
Lava rock
Metamorphic
Anthracite
Slate
Marble

34. The Earth’s Rocks Are Recycled Very Slowly
Rock cycle
Slowest of the earth’s cyclic processes

35. Natural Capital: The Rock Cycle Is the Slowest of the Earth’s Cyclic Processes

36. Heat, pressure, stress Magma (molten rock)
Erosion
Transportation
Weathering
Deposition
Igneous rock
Granite, pumice, basalt
Sedimentary rock Sandstone, limestone
Heat, pressure
Cooling
Heat, pressure, stress
Magma (molten rock)
Figure 14.13
Natural capital: the rock cycle is the slowest of the earth’s cyclic processes. Rocks are recycled over millions of years by three processes: erosion, melting, and metamorphism, which produce sedimentary, igneous, and metamorphic rocks. Rock from any of these classes can be converted to rock of either of the other two classes, or can be recycled within its own class (Concept 14-2). Question: What are three ways in which the rock cycle benefits your lifestyle?
Melting
Metamorphic rock
Slate, marble, gneiss, quartzite
Fig , p. 354