Summary

This document explains the layers of the Earth, including the crust, mantle, and core. It describes the properties of each layer, and how temperature, pressure, and density vary with depth. It's suitable for students learning about Earth science.

Full Transcript

Layers of the Earth Learning Objectives describe the structure of the Earth’s interior. relate the structure of the Earth’s interior to plate tectonics. explain the convection currents that power plate movement. Essential Question: How are layers of the Earth different from on...

Layers of the Earth Learning Objectives describe the structure of the Earth’s interior. relate the structure of the Earth’s interior to plate tectonics. explain the convection currents that power plate movement. Essential Question: How are layers of the Earth different from one another? Standard: S6E5a. Compare and contrast the Earth’s crust, mantle, and core including temperature, density, and composition. The Earth is made up of 3 main layers: Crust Mantle Core Think of the layers of the Earth like the layers of a cake. Use the Layers of the Earth Foldable to take notes Crust Ocean Land The Earth’s crust is like the skin of an apple. Crust Ocean Land Thinnest layer of the Earth Made up of large amounts of silicon and aluminum Composed of plates on which the continents and oceans rest. These “ride” over molten mantle. Crust is part of the lithosphere. Two types of Crust: Oceanic and Continental Continental vs. Oceanic Crust Category Continental Oceanic Rock Type Granite Basalt Thickness 5 – 70km (Thicker) 3 – 8 km (Thinner) State Solid Solid Crust Age 4 billion years old or 180 million years Older old or Younger Density Less Dense More Dense Element Oxygen, Sodium, Iron, Magnesium, Composition Silicon, Aluminum, Calcium Potassium The Lithosphere The crust and the upper layer of the mantle together make up a zone of rigid, brittle rock called the Lithosphere. The lithosphere (crust and upper mantle) is divided into separate plates which move very slowly in response to the “convecting” part of the mantle. The Lithospheric Plates The crust of the Earth is broken into many pieces called plates. The plates "float" on the soft, semi- rigid asthenosphere. Mantle Middle Mantle Upper Mantle Convection Currents Lower Mantle The Mantle The Mantle is the largest layer of the Earth at 2900 km thick. The middle mantle is composed of very hot dense rock that flows like asphalt under a heavy weight. The movement of the middle mantle (asthenosphere) is the reason that the crustal plates of the Earth move. The Asthenosphere The asthenosphere is the semi-rigid part of the middle mantle that flows like hot asphalt under a heavy weight. Asthenosphere The asthenosphere (“weak sphere”) is a soft layer of the mantle on which pieces of the lithosphere move. It is made of solid rock that, like putty, flows slowly- at about the same rate your fingernails grow. Convection Currents The middle mantle "flows" because of convection currents. Convection currents are caused by the very hot material at the deepest part of the mantle rising being less dense, then cooling becoming more dense and sinking again --repeating this cycle over and over. Upper Mantle Mantle Convection Currents Middle Mantle Lower Mantle Solid but capable of flow (like fudge) Semi- Solid/Semi Liquid Thickest layer of the Earth 2900km (1800 miles) Element Composition: Magnesium, Silicon, Oxygen, and Iron The hot magma rises then cools and sinks. These convection currents cause changes in the Earth’s surface. Conveyor belt for the tectonic plates. Core Outer Core Inner Core Outer Core Composition: Molten (liquid) metal that is about 4,700°C (8,500°F) Thickness: 2,266 km (1,400) miles State of Matter: Composed of the melted metals nickel and iron (liquid) Located about 1,800 miles beneath the crust. Inner Core Solid sphere made mostly of iron and has Nickel It is believed to be as hot as 6,650°C (12,000°F) Heat in the core generated by the radioactive decay of uranium and other elements It is solid because of the pressure from the outer core, mantle, and crust compressing it. Thickness: 1271 km (800 miles) What do these two images tell us about the layers of the Earth? Temperature increases as depth increases Look at the information in the graph and table below. What’s the relationship between depth and density/pressure? Density and Pressure increase as depth increases Temperature, Density and Pressure increases as depth increases Add this statement to the arrow going down on your foldable. Which layer of the Earth has the greatest temperature, pressure, and density? Core How far have scientists drilled into the earth? 7.6 miles – Only 0.2% of the distance to the earth’s core How do we know so much about what’s under Earth’s surface? Through INDIRECT EVIDENCE, mostly from seismic waves caused by earthquakes (more on this later this semester...) Sometimes indirect evidence is the only option for scientists to develop a theory Lets give it a try... Practice Quiz Question Can you label the following layers? Earth’s Layers Rap https://youtu.be/HOd7PRJMkkQ Big Ideas The Earth is divided into 3 Main Layers – Crust – Mantle – Core Main Rock type of the 2 types of Crust – Oceanic – Basalt – Continental – Granite Oceanic Crust is denser than Continental Crust Big Ideas Continued The lithosphere is divided into tectonic plates. The Mantle has the convection currents which causes the plates to move. The Asthenosphere flows semi-liquid on which the plates move Temperature, pressure, and density increases as depth increases. This is a direct relationship.

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