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IS9
Unit 3: Plate Tectonics, Earthquakes & Volcanoes
Reading – Chapter 16, Sections 16.4, 16.5, 16.6 (pg 494-514)
Date
10-22
T
10-24
Th
10-28
M
Homework Assigned
Outline Part I,
10-30
W
Outline Part IV
11-1
F
Outline Part V
11-5
T
Outline Part VI
11-7
Th
Outline Part VII
11-12
T
11-14
Th
11-18
M
Study Guide
Did you finish plotting all the earthquakes
and volcanoes? –Must be complete by 10/30
Outline Part II & Part III
In-Class
Let’s Hope We Don’t Drift Apart: Wegener &
Continental drift, Pangaea puzzle
⧝How the Earth was Made: Marianas Trench
Quiz #1 on Part I, Magnetic Profiles Lab,
Seafloor Spreading PowerPoint, Scrat Video,
Convection Model & discussion
Quiz #2 on Part II & III, What’s Happening
During Convection group activity? Cascade
Volcanoes and Plate Boundaries, The Ring of
Fire
Quiz #3 IV, Predicting Plate Movements - cut
out, Faults and Stress PowerPoint, It’s not my
Fault lab
Quiz#4 on Part V, Fault Sort, Earthquakes,
Scales and Waves student activity, Locating the
epicenter (earthquake lab)
Quiz #5 on Part VI, Locating the Epicenter 3,
Preparedness Now!, CA natural hazards stations
Quiz #6 on Part VII Volcanoes-IS Quest, Hot
Spots
30 minutes of fuel…what would you
do!!!! Review for test
Unit test: you need to be able to find the
epicenter of an earthquake given seismic data,
and to identify a volcano based on data!
Study for test!
Relax
Vocabulary –
Plate Tectonics
Convection Currents
Alfred Wegener
Pangaea
Continental Drift
Magma/Lava
Viscosity
Pahoehoe/aa
Lahar
Mafic/Felsic (Silica)
Quiet Eruption
Explosive eruption
Pyroclastic flow
Ash & Cinders
Intrusive igneous rock
Batholith/Sill/Dike
Volcanic neck
Earthquake
Mercalli Scale
Moment Magnitude
Learning Targets –
Epicenter & Focus
Rift Valley
Island Arcs
Folded Mountains
Mid-ocean Ridge
Sea-floor Spreading
Subduction
Trench
Divergent Boundary
Convergent Boundary
Transform Boundary
Compression
Tension
Shearing
Volcano
Earthquake
Seismic waves
Tsunami
Liquefaction
Normal fault
Reverse fault
Thrust fault
Strike-slip fault
Fold
Hanging Wall/Foot Wall
Rayleigh/Love wave
P wave (longitudinal)
S wave (transverse)
Surface wave
Seismograph
Magma chamber
Pipe
Vent
Crater
Caldera
Hot spot
Shield volcano
Cinder cone volcano
Composite volcano
Ring of fire
- I need more help with this concept  I understand the basics of this concept
+ I got this!
I can explain Wegener’s theory of continental drift
I know the evidence for sea-floor spreading
I can explain how convection currents power the movement of the plates
I can list and describe the types of plate boundaries and faults and the “stress” that
causes them
I can describe how and where most mountains form
I can draw a diagram of the fault, epicenter, focus and epicenter of an earthquake
I know the relationship between earthquakes, volcanoes and plate boundaries.
I can compare and contrast P, S and Surface waves (order that they arrive, materials
that they can move through, and how they move the rock particles).
I can find the epicenter of an Earthquake using data from seismograph stations and
a compass.
I can compare and contrast the different “scales” used to describe earthquakes
(Richter, Moment Magnitude, Modified Mercalli)
I can explain how volcanoes form
I know why some volcanic eruptions are quiet and others explosive
I can label the epicenter, focus and fault.
I know that the closer a city is to an epicenter the more damage that will occur.
I know that the best way to protect yourself during an earthquake is to “Drop,
Cover and Hold on.”
I can label the hanging wall and footwall of a fault.
I can compare and contrast the different types of faults (normal, reverse, strike-slip
and thrust).
I can draw the movement along the fault for normal, reverse, strike-slip and thrust
faults and know which way the hanging wall moves (up or down). Remember that
a strike-slip fault has no hanging wall or footwall.
I can identify the type of “stress” that is associated with each fault.
I know that the San Andres Fault is an example of a strike-slip fault.
I can identify waves based on diagrams.
I can locate the “Ring of Fire” and know how it got its name.
I can identify the factors that affect viscosity (silica & water content, temperature).
I know how a Tsunami forms and the system that is used to track them.
I can explain how earthquakes can cause liquefaction.
I can label the parts of a volcano.
I can describe how a caldera forms and that Crater Lake is an example of a caldera.
I know the characteristics of a quiet and explosive eruption.
I know which type of eruption form pahoehoe and aa.
I can compare and contrast the 3 types of volcanoes
I can draw a cross section of each of the 3 types of volcanoes and can describe how
each was formed (lava flow or ash & cinders).
I can identify and describe the types of intrusive igneous rocks that can form (sill,
dike, volcanic neck, batholith).
I can describe how a hot spot can create volcanoes (Hawaii).
I can identify the relative age of an island by its distance from the hot spot.
I know that the Earth’s plate move in different directions but hot spots do NOT
move.
I can describe how seismographic data has been used to identify the outer core.
B4
test
References
(ppt= powerpoint)
Text 495
Text 496-497
Text 497
Text 499-500
Text 501
Text 504
Text:511
Text 504-506
Labs
Text 505-506
Text 508-509
Text 510
Text: 504
Notes
Video
Lab
Text:601
Lab
Lab
Video
Types of Waves w/s
Text:511
Text:510
Text:503 & Video
Lab
Text: 509
Lab
Text: 510
Text: 509
Text: 512
Text: 512
Text: 514
Text:513
Text: 513
Lab & demo
Text: 507