1. Theory of Plate Tectonics
Terri Henry
2nd lesson

2. Evidence of Continental Drift
Continents fir together like puzzle pieces.
Same fossils of animals and plants found on different continents.
Similar rock layers on different continents.
Striation left from glacier movement.
Tropical plant fossils in Antarctica.
Satellite technology collects data about plate movement.

3. Theory of Plate Tectonics
All of the evidence supports scientist belief that the continents move.
Why?
Through a collection of data scientist have pieced together the Theory of Plate Tectonics.
Scientist believe that the earth’s surface is broken in to many different sized plates that move.

4. What is a Tectonic Plate?
A massive, irregularly shaped slab of solid rock, usually composed of both continental and oceanic crust.

5. Why do Plates move? Must investigate the interior of the earth.
4.6 billion years ago, scientist believe that a huge explosion of gas and matter occurred in space.
Over time the gas and matter cooled to formed planets.
A layer of solid matter or crust formed around the outside of a a ball.
The lighter or less dense matter moved toward the center.
Four main layers formed as the Earth cooled and its matter separated.

6. Crust The outermost layer. Includes soil, sand and rocks, deep rocks.
Very thin and brittle.
Contains elements Oxygen and Silicon.
Less dense than the mantle, this is why it floats.
Contains continental crust 20km – 70km and oceanic crust 5km – 10km.
Also known as the lithosphere.

7. Mantle /Asthenosphere
Mantle is a solid rocky layer below the crust.
It is made up of magnesium, silicon, and oxygen.
The mantle makes up 80% of the Earth’s volume.
The mantle makes up 68% of the Earth’s mass.
It begins 200km below the surface and extends down to 3,000km.
There is a big temperature difference that causes the convection currents.
The convection currents are what move the crust.
Asthenosphere is the upper mantle to about 700km deep.
The Asthenosphere is a hot semi-solid material (plasticity).
The Asthenosphere glides over the lower mantle. This is what causes the crust to move.

8. Outer Core Made of iron and nickel.
The temperature (3,800°C) is so great that these metals form a moving liquid layer. This liquid layer causes the magnetic field of earth.
The outer core is 2,200km thick.

9. Inner Core A solid Sphere. Made of iron and nickel.
Temperature is 5,000°C and pressure is so great (from the weight of all the other layers) the iron is squeezed into a solid form.
About 1,300km thick. 

11. Why does the crust move?
Inside the Earth, the source of heat is extreme.
Heat form the interior rises toward the surface of the Earth.
This causes the liquid rock in the mantle to move with it.
Hot or less dense liquid moves upwards.
Cool heavy rock sinks downwards.
The heated magma rises to the surface, spreads and begins to cool, then sinks to the bottom of the mantle where it is reheated and rises again.

13. Convection currents continued
The plates ride on the convection currents.
Plate motion results in volcanoes, earthquakes, and mountain building.
Convection currents caused Pangaea to break up.
Convection currents have pushed the continents to where they are today.
Convection currents also causes the crust to be destroyed or recycled

14. Why Does the Plate Float?
Continental crust is composed of rocks that are made of relatively lightweight minerals such as quartz and feldspar.
All of which are found in granite.
Oceanic crust is composed of basaltic rock which is heavier.
Quartz
Feldspar
Basaltic

15. Types of Plate Movement
There are three main types of plate movement.
Divergent boundaries
Convergent boundaries
Transform boundaries

16. Divergent Boundaries
Occur along spreading centers where plates are moving apart.
New crust is created by magma pushing up from the mantle.
Can be any combination of plates (oceanic and continental)
Best known divergent boundary is the Mid-Atlantic Ridge or sea floor spreading.

17. Divergent Boundaries Causes underwater volcanoes and islands.
Creates rift valleys.
The stress at this boundary is tension. A stress that pulls on the crust, stretching rock so that it becomes thinner.
Type of fault associated with divergent boundaries is a Normal fault.

18. Iceland Iceland lies across the Mid-Atlantic Ridge.
It becomes wider every year as the North American and Eurasian Plates drift apart.
Parts of Iceland are spreading 9cm per year.

19. Sea Floor Spreading

20. Transform Boundaries
The zone between two plates sliding horizontally past one another.
Do not easily slide past each other. There is a lot of pressure and stress that builds up between the plates as they move.
The place where plates move and cause a break in the crust is called a fault. Transform boundaries create earthquakes when they slide past each other.
Most transform boundaries exist on the ocean floor.

21. Transform Boundary
Type of stress: shearing a stress that pushes a mass of rock in two opposite directions.
Type of fault: Strike –Slip
Motion at the boundary: creates faults
Crust action: there is no new crust made at this boundary.
Land features: Faults are created

22. San Andreas Fault
The San Andreas Fault slices through 2/3 or the length of California. The Pacific Plate is moving horizontally past the North American Plate at an average rate of 5 cm/yr.

23. Convergent Boundaries
Recycling of crust occurs along these boundaries.
Plates are moving toward each other or colliding.
Usually occurs where one plate is sinking under another plate (subduction zone).
Convergence may occur between an oceanic and continental plate, or between two oceanic plates, or between two continental plates.

24. Convergent Boundary Continental to Continental
Occurs when two continental plates collide with each other and push upwards.
Tall folding Mountains form The land has no where to go but up.
This is pushing up is known as uplifting.
This type of convergent boundary does not cause subduction.

25. Convergent Continental to Continental
Type of stress: Compression: a stress that squeezes rock until it folds or breaks.
Type of Fault: Reverse
Motion at this boundary: Folding and bending
Crust Action: no new crust is created and crust is not recycled, it is reformed.
Features: Mountain building

26. Creation of the Himalayan Mountain Range
The Himalayas continue to rise more than 1 cm a year—a growth rate of 10km in a million years.

27. Convergent Boundary Oceanic to Oceanic
When two ocean plates collide, one plate moves under the other or subducts.
Usually the plate with older rock moves under the younger rock because it is more dense.
The old crust is forced into the Earth and melts to become liquid rock.

28. Convergent Oceanic to Oceanic
Type of stress: compression: stress that squeezes rock until it folds or breaks.
Motion at the boundary: subduction
Type of fault: Reverse
Crust is recycled into the earth.
Land feature: trench is formed.

29. Marianas Trench Located between the Phillippine and Pacific plates.
Deepest trench on Earth.
Reaches almost 11,000m below sea level.
It is over 2,000m deeper than the tallest mountain on Earth.

30. Convergent Boundary Continental to Oceanic
When oceanic and continental crust collide, the oceanic crust pushes under the continental crust.
Oceanic crust slides under the continental crust because it is more dense.
Eat and pressure below the earth’s surface get very intense. Earthquake and volcanoes occur near the subduction zones to release the pressure.

31. Convergent Continental to Oceanic
Type of stress: compression: a stress that squeezes rock until it folds or breaks.
Motion at the boundary: subduction
Type of fault: Reverse
Crust Action: recycling of old crust to form new crust
Land Form: Mountain ranges and volcanoes

32. Cascade Mountain Range
Occurs as the pacific plate moves under the Juan de Fuca plate.
The heat and pressure cause the oceanic crust to melt.
The crust is broken down when it forms liquid rock or magma.
The magma rises to the surface of the earth and the result is a volcano.

33. Convergent Boundaries
India and Asia to create the Himalayas
Oceanic Nazca Plate is subducting under the South American Plate to create the Andes mountains and Peru Chili Trench
Two oceanic plates colliding, one must subduct under the other creating a trench (Marianas Trench)