Section 1: The Geosphere

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Section 1: The Geosphere Preview Classroom Catalyst Objectives The Earth as a System Discovering Earth s Interior The Composition of the Earth The Structure of the Earth Plate Tectonics

Section 1: The Geosphere Preview, continued Plate Boundaries Plate Tectonics and Mountain Building Earthquakes Where do Earthquakes Occur? Earthquake Hazard Volcanoes Local Effect of Volcanic Eruptions Global Effects of Volcanic Eruptions

Section 1: The Geosphere Preview, continued Erosion Water Erosion Wind Erosion

Classroom Catalyst

Objectives Describe the composition and structure of the Earth. Describe the Earth s tectonic plates. Explain the main cause of earthquakes and their effects. Identify the relationship between volcanic eruptions and climate change. Describe how wind and water alter the Earth s surface.

The Earth as a System The Earth is an integrated system that consists of rock, air, water, and living things that all interact with each other. Scientists divided this system into four parts: The Geosphere (rock) The Atmosphere (air) The Hydrosphere (water) The Biosphere (living things)

The Earth as a System

The Earth as a System The geosphere is the mostly solid, rocky part of Earth that extends from the center of the core to the surface of the crust. The atmosphere is the mixture of gases that makes up the air we breathe. Nearly all of these gases are found in the first 30 km above the Earth s surface.

The Earth as a System The hydrosphere makes up all of the water on or near Earth s surface. Much of this water is in the oceans, which cover nearly three-quarters of the globe. However, water is also found in the atmosphere, on land, and in the soil.

The Earth as a System The biosphere is the part of Earth where life exists. It is a thin layer at Earth s surface that extends from about 9 km above Earth s surface down to the bottom of the ocean. The biosphere is therefore made up of parts of the geosphere, the atmosphere, and the hydrosphere.

Discovering Earth s Interior Scientists use seismic waves to learn about Earth s interior. Seismic waves are the same waves that travel through Earth s interior during an earthquake. A similar process would be you tapping on a melon to see if it is ripe.

Discovering Earth s Interior A seismic wave is altered by the nature of the material through which it travels. Seismologists measure changes in the speed and direction of seismic waves that penetrate the interior of the planet. With this technique seismologists have learned that Earth is made up of different layers and have inferred what substances make up each layer.

Discovering Earth s Interior

The Composition of the Earth Scientists divide Earth into three layers: The crust The mantle The core These layers are made up of progressively denser material toward the center of Earth.

The Composition of the Earth The crust is the thin and solid outermost layer of the Earth above the mantle. It is the thinnest layer, and makes up less than 1 percent of the planet s mass. It is 5 km to 8 km thick beneath the oceans and is 20 km to 70 km thick beneath the continents.

The Composition of the Earth The mantle is the layer of rock between the Earth s crust and core. The mantle is made of rocks of medium density, and makes up 64 percent of the mass of the Earth. The core is the central part of the Earth below the mantle, and is composed of the densest elements.

The Structure of the Earth Earth can be divided into five layers based on the physical properties of each layer. The lithosphere is the solid, outer layer of the Earth that consists of the crust and the rigid upper part of the mantle. It is a cool, rigid layer that is 15 km to 300 km thick and is divided into huge pieces called tectonic plates.

The Structure of the Earth The asthenosphere is the solid, pliable layer of the mantle beneath the lithosphere. It is made of mantle rock that flows slowly, which allows tectonic plates to move on top of it. Beneath the asthenosphere is the mesosphere, the lower part of the mantle.

The Structure of the Earth Earth s outer core is a dense liquid layer. At the center of Earth is a dense, solid inner core, which is made up mostly of iron and nickel. Although the temperature of the inner core is estimated to be between 4,000 C to 5,400 C, it is solid because it is under enormous pressure. The inner and outer core make up about one-third of Earth s mass.

Earth s Layers

Plate Tectonics Tectonic plates are blocks of lithosphere that consist of the crust and the rigid, outermost part of the mantle and glide across the underlying asthenosphere. The continents are located on tectonic plates and move around with them. The major tectonic plates include the Pacific, North America,South America, Africa, Eurasian, and Antarctic plates.

Plate Boundaries Much of the geological activity at the surface of Earth takes place at the boundaries between tectonic plates. Tectonic plates may separate, collide, or slip past one another. Enormous forces are generated with these actions causing mountains to form, earthquakes to shake the crust, and volcanoes to erupt along the plate boundaries.

Plate Tectonics and Mountain Building Tectonic Plates are continually moving around Earth s surface. When tectonic plates collide, slip by one another, or pull apart, enormous forces cause rock to break and buckle. Where plates collide, the crust becomes thicker and eventually forms mountain ranges, such as the Himalaya Mountains.

Earthquakes A fault is a break in Earth s crust along which blocks of the crust slide relative to one another. When rocks that are under stress suddenly break along a fault, a series of ground vibrations, known as earthquakes, is set off. Earthquakes are occurring all the time. Many are so small that we cannot feel them, but some are enormous movements of Earth s crust that cause widespread damage.

Earthquakes The measure of the energy released by an earthquake is called magnitude. The smallest magnitude that can be felt is 2.0, and the largest magnitude ever recorded is 9.5. Magnitudes greater than 7.0 cause widespread damage. Each increase of magnitude by one whole number indicates the release of 30.0 times more energy than the whole number below it.

Where do Earthquakes Occur? The majority of earthquakes take place at or near tectonic plate boundaries because of the enormous stresses that are generated when tectonic plates separate, collide or slip past each other. Over the past 15 million to 20 million years, large numbers of earthquakes have occurred along the San Andreas fault in California, where parts of the North America plate and the Pacific plate are slipping past one another.

Where do Earthquakes Occur?

Earthquake Hazard Scientists cannot predicts when earthquakes will take place. However, they can help provide information about where earthquakes are likely to occur helping people prepare. An area s earthquake-hazard level is determined by past and present seismic activity. Earthquake-resistant buildings, built in high risk areas, are slightly flexible so that they can sway with the ground motion preventing them from collapsing.

Volcanoes A volcano is a mountain built from magma, or melted rock, that rises from Earth s interior to the surface, and can occur on land or in the sea. Volcanoes are often located near tectonic plate boundaries where plates are either colliding or separating from one another. The majority of the world s active volcanoes on land are located along tectonic plate boundaries that surround the Pacific Ocean.

Volcanoes: The Ring of Fire

Local Effect of Volcanic Eruptions Clouds of host ash, dust, and gases can flow down the slope of a volcano at speeds of up to 160 km/hr and sear everything in their path. During an eruption, volcanic ash can mix with water and produce mudflow that runs downhill. In addition, ash that falls to the ground can cause buildings to collapse under its weight, bury crops, damage the engines of vehicles, and cause breathing difficulties.

Global Effects of Volcanic Eruptions Major volcanic eruptions can change Earth s climate for several years. In large eruptions, clouds of volcanic ash and sulfur rich gases may reach the upper atmosphere, and spread across the planet reducing the amount of sunlight that reaches Earth s surface. The reduction in sunlight can cause a drop in the average global surface temperature.

Erosion Earth s surface is continually battered by wind and scoured by running water, which moves rocks around and changes their appearance. Chemical weathering is the process in which the materials of Earth s surface are loosened, dissolved, or worn away. Erosion transports the materials form one place to another by a natural agent, such as wind, water, ice or gravity. Weathering an erosion wear down rocks and makes them smoother as times passes. Older mountains are therefore smoother than younger ones.

Water Erosion Erosion by both rivers and oceans can produce dramatic changes on Earth s surface. Waves from ocean storms can erode coastlines to give rise to a variety of landforms, Over time, rivers can carve deep gorges into the landscape.

Wind Erosion Wind also changes the landscape of the planet. In places where few plants grow, such as beaches and deserts, wind can blow soil away very quickly. Soft rocks, such as sandstone, erode more easily than hard rocks, such as granite do.

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