plate boundaries and interactions worksheet

... The earth’s lithosphere is broken into multiple pieces, tectonic plates. According to the Theory of Plate Tectonics, these tectonic plates are in constant motion due to convection of the upper mantle. The points where two plates meet are referred to as plate boundaries. Different types of plate boun ...

3202 Unit 1-1 PlateTectonics

... Plate tectonics – the idea that the earth’s surface is covered by tectonic plates that are continually moving. ...

Origin of the Universe

... Harry Hess’s Seafloor Spreading developed into ...

Document

... THE RED SEA: - This is an example of a Divergent ...

Composition of the earth, Geologic Time, and Plate Tectonics

... Convection in the mantle moves these “plates” relative to one another Overarching theory to explain mountain ranges, basins, and movement of continents ...

12.2 Note Outline key.jnt

... Earth is composed of layers, including the lithosphere (surface) and asthenosphere (just below the surface) The asthenosphere is partly molten, and allows the tectonic plates of the lithosphere to “float” on the convection currents of hot magma. When tectonic plates meet (converge), one plate may sl ...

12.2 Note Outline

... Earth is composed of layers, including the lithosphere (surface) and asthenosphere (just below the surface) The asthenosphere is partly molten, and allows the tectonic plates of the lithosphere to “float” on the convection currents of hot magma. When tectonic plates meet (converge), one plate may sl ...

solid rock

... Questions 1-4 on page 12 Use complete sentences when answering the questions. Be sure to indicate what page number your questions are from in your notebook. ...

Plate Tectonics and Geologic Age

... On this website you will see the earth, and examine the causes of earthquakes. Click on the terms listed at the bottom of the page to learn more about each of the terms used to describe the movement of the earth’s crust. Define the following terms in the table below: Tectonic plate Actively spreadin ...

PLATE TECTONIC PROCESSES

... When the plates move apart, new land is created (made). ...

4.1 Earth`s Formation

... Explain how most scientists explain the formation of our solar system.  Describe Earth’s size and shape and the arrangement of its layers.  List three sources of Earth’s internal heat.  Describe Earth’s magnetic field. ...

2.4ab

... rocky ...

The Theory of Continental Drift

... Oceanic or Continental: How are transform boundaries different from convergent and divergent? ...

Plate Tectonics*what is it?

... This is called a HOT SPOT and is where volcanic activity occurs. HOTSPOTS are how the Hawaiian islands were formed!! ...

What is the Earth System?

... II. Plate Tectonics A. Theories 1. Continental Drift – 1929 – Alfred Wegener – proposed continents were originally 1 & then moved apart ...

Plate Tectonics - Illinois Wesleyan University

... arcuate chain of volcanoes on the overlying plate where the oceanic plate gets to 100km, which depends on age/density of downgoing slab. With older oceanic crust, the plate descends at a steeper angle and the volcanic chain is closer to the trench. • Continental crust does not get subducted, because ...

Earth`s Interior (+ Magnetism section from Plate Tectonics Chapter

... MAFIC – igneous rocks whose composition is low in Si and high in Fe, Mg, and Ca – usually found in oceanic volcanic settings like seafloor spreading centers and ocean hotspots. Example: Basalt. FELSIC – igneous rocks whose composition is high in Si and low in Fe, Mg, and Ca – usually found in contin ...

Oreo Cookies and Plate Tectonics

... _________________________________________________________ _________________________________________________________ (You can feel and hear that the “plates” do not slide smoothly past one another, but rather stick then let go, stick then let go. The cracking sound you hear each time is like an earth ...

Geography 12

... rock that reaches the earth’s surface from volcanic activity. _IGNEOUS_________ rock formed from the solidification (cooling) of magma below and above the earth’s surface. This type of rock was changed by great heat and pressure from its original state ___METAMORPHIC_________. The weathering and ero ...

Lesson 10 - Rift Volcanism

... 1) Beneath Oceans  The greatest volume of volcanic rock is produced within oceanic ridges where seafloor spreading is active. Example; along the Mid Atlantic Ridge.  Shield volcanoes are formed along ridges when basaltic lava flows on the ocean floor. In some case these volcanoes can rise above se ...

Mountain Formation

... ...

Chapter 2 - Plate Tectonics

... volcanic mountain chain, folded mountains, and deep earthquakes Andes Mountains Peru-Chile Trench ...

File - Earth Science Introduction

... ___ 14 . Alfred Wegener was a: a. geologist. b. biologist. c. astronomer. d. meteorologist. ____ 15. Magnetic reversals are preserved in a. compass needles. b. magnetic minerals. c. all minerals. d. continental crust. ___ 16. An early hypothesis that eventually led to the Theory of Plate Tectonics w ...

2008 EXAM 1 With Answers

... in a positive feed-back cycle. Away from mid-ocean ridges the oceanic crust increases in: (a) age (b) depth (c) all of these (d) density (e) thickness ...

Bathymetric Map Project

... Begin to find plate boundaries • Ocean ridges, rises, and deep ocean trenches are all geologic features that are formed at plate boundaries • Let’s use these features to draw some of our plate boundaries • Use a colored pencil to trace over the ridges and rises (white areas). ...

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Plate tectonics

Plate tectonics (from the Late Latin tectonicus, from the Greek: τεκτονικός ""pertaining to building"") is a scientific theory that describes the large-scale motion of Earth's lithosphere. This theoretical model builds on the concept of continental drift which was developed during the first few decades of the 20th century. The geoscientific community accepted the theory after the concepts of seafloor spreading were later developed in the late 1950s and early 1960s.The lithosphere, which is the rigid outermost shell of a planet (on Earth, the crust and upper mantle), is broken up into tectonic plates. On Earth, there are seven or eight major plates (depending on how they are defined) and many minor plates. Where plates meet, their relative motion determines the type of boundary; convergent, divergent, or transform. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation occur along these plate boundaries. The lateral relative movement of the plates typically varies from zero to 100 mm annually.Tectonic plates are composed of oceanic lithosphere and thicker continental lithosphere, each topped by its own kind of crust. Along convergent boundaries, subduction carries plates into the mantle; the material lost is roughly balanced by the formation of new (oceanic) crust along divergent margins by seafloor spreading. In this way, the total surface of the globe remains the same. This prediction of plate tectonics is also referred to as the conveyor belt principle. Earlier theories (that still have some supporters) propose gradual shrinking (contraction) or gradual expansion of the globe.Tectonic plates are able to move because the Earth's lithosphere has greater strength than the underlying asthenosphere. Lateral density variations in the mantle result in convection. Plate movement is thought to be driven by a combination of the motion of the seafloor away from the spreading ridge (due to variations in topography and density of the crust, which result in differences in gravitational forces) and drag, with downward suction, at the subduction zones. Another explanation lies in the different forces generated by the rotation of the globe and the tidal forces of the Sun and Moon. The relative importance of each of these factors and their relationship to each other is unclear, and still the subject of much debate.

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Plate tectonics