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Explore the basic layers of the Earth's interior and learn about the evolution of the Earth's crust, earthquakes, and volcanoes. Discover how the lithosphere, asthenosphere, and mantle interact to create convection currents that drive plate tectonics. Understand how the outer and inner core contribute to the Earth's structure.
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Chapter 12 Section 3: Earth’s Interior Section 1: Evolution of Earth’s Crust Section 2: Earthquakes Section 4: Volcanoes
Basic Layers of the Earth • From the surface to the center: • Crust • Mantle • Outer Core • Inner Core
Earth’s Crust • The crust is the thinnest layer. • The crust is a rocky layer. • There are two types of crust: 1.) oceanic 2.) continental
Two Types of Crust • Oceanic Crust- the rock beneath oceans • Oceanic crust is made mostly of a rock called basalt. • Easy way to remember this is ba“salt”- salty like the ocean… • Basalt is a very dense (heavy) rock. • Continental Crust- the rock of continents • This crust is made mostly of a rock called granite. • Granite is less dense than basalt.
Where the 2 Types of Crust Meet: • If oceanic crust moves and runs into continental crust, the oceanic crust will sink beneath. • This is because basalt is more dense than granite. • This is called subduction.
subduction Magma
The Mantle • The mantle is the thickest layer. (2,900 km) • The mantle is divided into layers: • upper mantle and crust = rocky lithosphere • Middle mantle = gooey asthenosphere • Lower mantle = magma ROCK MAGMA
The Lithosphere • “Lithos” means rock. • The crust and the upper mantle are both hard, rocky layers. • Together they are called the lithosphere. • The whole Earth is covered in lithospheric rock, but 70% of it is hidden by oceans. • The lithosphere is broken into pieces called “plates” or “lithospheric plates.”
About the Plates: • There are more than a dozen (12) plates. • The U.S. is mostly on the North American plate with the exception of Baja California and Hawaii which are on the Pacific Plate.
The Asthenosphere • The asthenosphere is the part of the mantle that flows gently like melted plastic or gooey caramel. • Currents of magma in the mantle make the plates, which are floating on top of the mantle, move around.
Convection Currents • Magma in the upper mantle is a cooler 1,600°F. • The magma in the lower mantle is around 4,000°F. • The hot magma rises and the cooler magma sinks. • This creates a convection current.
Moving Plates • The rocky lithospheric plates float along on the convecting magma of the asthenosphere. • This causes plates to run into each other creating earthquakes and mountains. • Convection currents can also make the plates move away from each other creating valleys.
The Outer Core • Under the mantle lies the outer core. • The outer core is composed of the metals of nickel and iron. • The outer core is so hot that it melts the iron and nickel into liquids. • Temperatures near the top of the outer core are around 4,000°F, but at the bottom the temperature is a much hotter 9,000°F!
The Inner Core • The inner core of the Earth has temperatures and pressures so great that the metals are squeezed together to create a solid ball of metal. • This extremely hot, dense, ball of metal is able to spin in place because it is surrounded by the liquid outer core.
Why the Layers? • Scientists believe that as Earth’s materials cooled, the densest materials collected at the center of the Earth and the less dense materials at the surface. • This change in density is called a discontinuity.
How Do We Know? • Earthquakes produce seismic waves that move through the Earth. • There are P and S waves. • P waves can travel through liquids and solids. • S waves cannot travel through a liquid. • Scientists studied the way these waves move through the Earth and were able to draw conclusions leading to what we know today about the layers of the Earth.
Section 1: Evolution of Earth’s Crust
Continental Drift & Pangaea • In 1915 Alfred Wegener suggested that Earth’s continents were once part of a large super-continent called Pangaea. • Pangaea was thought to have broken into pieces 200 million years ago and drifted apart. • Wegener was never able to explain what caused the continents to move. • After his death, in 1930, evidence was found.
Why Did He Believe This? • Wegener used three pieces of evidence to support his theory: 1.) Matching coastlines: The east coast of South America looks like it fits with the west coast of Africa. 2.) Matching fossils: The same fossils from ferns and dinosaurs are found on multiple continents. 3.) Matching rocks and mountain ranges: Mountain ranges on the coasts of different continents have matching rock types.
Matching Coastlines:The light blue continental shelf is the continental crust under water that has not been as affected by weathering as the land above water. It’s a nearly perfect match for coastlines.
Sea Floor Spreading • After WWII Dr. Harry Hess made an accidental discovery while using sonar intended to detect submarines. • The sonar created a map which showed a crack in the ocean floor where magma was coming out and forming a mountain on both sides of a valley.
MOR (Mid Ocean Ridge) • Hot magma from the mantle moves up toward the crust because of its low density. (Hot things expand and become less dense) • If there is a weak area in the crust it will crack and create a fault. • The magma will come out of the crack, upon which it becomes lava. (MAgma is in the MAntle, Lava has Left) • The crack in the ocean is called the “Rift Valley.” • The lava builds up on both sides of the valley, layer upon layer and creates a mountain on each side called the Mid Ocean Ridge. Rift Valley Hot magma rises up through a weak spot in the crust.
Which crust is older? New Oceanic Crust is Forming Oldest Rock Oldest Rock Older Rock Older Rock Newest/ Young Rock Mantle Mantle
Theory of Plate Tectonics • Plate tectonics- The theory that pieces of the Earth’s lithosphere are in constant motion, driven by convection currents in the asthenosphere layer of the mantle. • J. Tuzo Wilson is credited with developing and explaining this theory.
Plate Boundaries • Since the lithospheric plates covering Earth’s surface are in constant motion, it causes them to bump, grind, slide, subduct, or pull apart from each other…. • There are three main types of plate boundaries: 1.) Divergent 2.) Convergent 3.) Transform
Divergent Plate Boundary • Divergent Boundary- where two plates move away from each other (divide). • This usually creates a valley.
Convergent Plate Boundaries • Convergent Boundary occurs when two plates collide (come together). • There are three ways these form: 1) Oceanic crust collides with continental crust 2) Oceanic crust collides with oceanic crust 3) Continental crust collides with continental crust
Convergent #1: Oceanic and Continental Crust • The more dense oceanic crust subducts beneath the continental crust. • This causes the oceanic crust to melt and become part of the asthenosphere. • You would find a deep trench in the ocean where the plate subducts.
Convergent #2: Oceanic and Oceanic Crust • Two slabs of oceanic crust converge and create deep sea trench and a volcanic island arc • Examples: Japan, Alaskan Aleutian Islands, Ring of Fire
Convergent #3: Continental and Continental • Two slabs of continental crust converge and create folded mountains and plateaus. • Examples: Himalayas in Asia, Ural Mountain Range
Transform Plate Boundary • Transform Boundary- where two plates slide past each other. • This usually causes earthquakes. • Example: San Andreas Fault in California.
What’s an Earthquake? • Any seismic vibration of Earth caused by the rapid release of energy is an earthquake.
Earthquake Location and Depth • Most earthquakes occur at plate boundaries. • It is the grinding of the lithospheric plates trying to move past each other that causes the Earth to quake. • Divergent boundaries cause shallow earthquakes. • Convergent boundaries cause deep earthquakes because of subduction.
Focus vs. Epicenter • The point inside the Earth where the earthquake begins is called the focus. • Energy moves out away from the focus in rings that travel in all directions. • The waves eventually reach the surface. • The point on the surface that is directly above the focus is called the epicenter.
Natural and Man Made: • In nature, stress can build up in the lithospheric rock until the rock moves and causes an earthquake. • Humans can cause the Earth to shake also. • Ex: trains, dynamite, low-flying planes…
Deformation • Deformation is the process of rocks changing shape. • This can be caused by 4 types of stress: 1.) Compression 2.) Tension 3.) Shearing 4.) Torsion
Com“press”ion • Stress caused when rocks (Earth’s plates) move towards each other and squeeze. • This stress happens at convergent plate boundaries.
Tension • Stress caused when rocks move away from each other and become thinner. • Easy way to remember: When you get pulled in many different directions (school, friends, family, homework…) you may get a tension headache. • This stress happens at divergent plate boundaries. adf
Shearing • Stress caused when rocks move past each other and rub. • Easy way to remember: the blades of scissors “shears” rub past each other. • This stress happens at transform plate boundaries.
Torsion • This stress happens when rocks twist. • This happens when stresses act on rock from several different directions.
Elastic Deformation • In this type of deformation: • Stress acts on rock • The rock changes shape • The stress stops or is removed • The rock “rebounds” or “Springs” back into its original shape. • Hint: This is like an elastic rubber band. • This elastic rebound causes a sudden release of energy that causes earthquakes.
Plastic Deformation • In this type of deformation: • Stress acts on rock • Rock changes shape • The stress is removed or stops • The rock remains bent. There is no elastic rebound. Therefore, there is no earthquake.
Fault vs. Fracture • A fault is a crack in the Earth’s crust where motion occurs causing an earthquake. • Ex: San Andreas Fault in California • A fracture is a crack in the Earth’s crust that has no motion, therefore, no earthquakes.
