- Changing Earth’s Surface Comparing and Contrasting • As you read, compare and contrast the different types of mass movement by completing a table like the one below. Mass Movement Type of Mass Movement Speed Slope Landslide rapid steep Mudflow rapid gentle to steep Slump rapid steep Creep slow gentle to steep

Data Sharing Lab • Click the PHSchool.com button for an activity about sharing data for the Skills Lab Sand Hills.

End of Section:Changing Earth’s Surface

- Water Erosion Runoff and Erosion • Precipitation over the United States averages about 75 cm per year. About 22.5 cm becomes runoff. Generally, more runoff means more erosion.

- Water Erosion Runoff and Erosion • Water flowing across the land runs together to form rills, gullies, and streams.

- Water Erosion Erosion by Rivers • A waterfall forms where a flat layer of tough rock lies over a layer of softer rock that erodes easily. When the softer rock erodes, pieces of the harder rock above break off, creating the waterfall’s sharp drop.

- Water Erosion Erosion by Rivers • Erosion often forms meanders and oxbow lakes where a river winds across its floodplain.

- Water Erosion Deposits by Rivers • Deposition creates landforms such as alluvial fans and deltas.

- Water Erosion The Course of a River • The slope and size of a river, as well as the sediment it carries, determine how a river shapes the land.

- Water Erosion Groundwater Erosion • Karst topography is found in many parts of the United States where the bedrock is made up of thick layers of limestone.

- Water Erosion Groundwater Erosion • Chemical weathering of limestone and groundwater erosion can create a limestone cave.

- Water Erosion Previewing Visuals • Before you read, preview Figure 10. Then write two questions you have about the illustration in a graphic organizer like the one below. As you read, answer your questions. The Course of a River Q. What features does a river produce by erosion? A. V-shaped valley, bluffs Q. What feature does a river produce by deposition? A. Delta

- Water Erosion More on Floods • Click the Planet Diary button for an activity about floods.

End of Section:Water Erosion

- The Force of Moving Water How Water Erodes • Most sediment washes or falls into a river as a result of mass movement and runoff. Other sediment erodes from the bottom or sides of the river. Streams carry sediment in several ways, as shown in the diagram.

- The Force of Moving Water Erosion and Sediment Load • A river’s slope is usually greatest near the river’s source. As a river approaches its mouth, its slope lessens.

- The Force of Moving Water Sediment on the Move • The speed, or velocity, of a stream affects the size of the sediment particles the stream can carry. Study the graph, then answer the following questions.

Stream velocity Reading Graphs: What variable is shown on the x-axis of the graph? - The Force of Moving Water Sediment on the Move

Diameter of sediment particles Reading Graphs: What variable is shown on the y-axis of the graph? - The Force of Moving Water Sediment on the Move

About 50 cm/sec; about 90 cm/sec; about 800 cm/sec Interpreting Data: What is the speed at which a stream can move coarse sand? Small pebbles? Large boulders? - The Force of Moving Water Sediment on the Move

Small boulders Predicting: A stream’s speed increases to about 600 cm per second during a flood. What are the largest particles the stream can move? - The Force of Moving Water Sediment on the Move

The faster the speed of the flowing water, the larger the particles the stream is able to move. Developing Hypotheses: Write a hypothesis that states the relationship between the speed of a stream and the size of sediment particles it can move. - The Force of Moving Water Sediment on the Move

- The Force of Moving Water Erosion and Sediment Load • A river erodes sediment from its banks on the outside curve and deposits sediment on the inside curve.

Key Terms: Examples: load friction turbulence - The Force of Moving Water Building Vocabulary • A definition states the meaning of a word or phrase by telling about its most important feature or function. Carefully read the definition of each Key Term and also read the neighboring sentences. Then write a definition of each Key Term in your own words. Key Terms: Examples: energy Energy is the ability to do work or cause change. The amount of sediment that a river carries is its load. Friction is the force that opposes the motion of one surface as it moves across another surface. potential energy Potential energy is the energy that is stored and waiting to be used later. Instead of moving downstream, the water moves ever which way in a type of movement called turbulence. kinetic energy Kinetic energy is the energy an object has due to its motion. abrasion Abrasion is the wearing away of rock by a grinding action.

- The Force of Moving Water More on River Erosion • Click the PHSchool.com button for an activityabout river erosion.

End of Section:The Force of Moving Water

- Glaciers How Glaciers Form and Move • A continental glacier is a glacier that covers much of a continent or large island.

- Glaciers How Glaciers Form and Move • During the last ice age, a continental glacier covered most of northern North America.

- Glaciers How Glaciers Shape the Land • As a glacier moves, plucking breaks pieces of bedrock from the ground.

- Glaciers How Glaciers Shape the Land • Erosion by glaciers can carve a mountain peak into a sharp horn and grind out a V-shaped valley to form a U-shaped valley.

- Glaciers How Glaciers Shape the Land • As glaciers advance and retreat, they sculpt the landscape by erosion and deposition.

- Glaciers Asking Questions • Before you read, preview the red headings. In a graphic organizer like the one below, ask a what, how, or where question for each heading. As you read, write answers to your questions. Question Answer What kinds of glaciers are there? Valley glaciers and continental glaciers How do glaciers shape the land? By erosion and deposition

- Glaciers Links on Glaciers • Click the SciLinks button for links on glaciers.

End of Section:Glaciers

- Waves Erosion by Waves • Waves shape the coast through erosion by breaking down rock and transporting sand and other sediment.

- Waves Erosion by Waves • Erosion and deposition create a variety of features along a coast.

- Waves Deposits by Waves • Waves shape a coast when they deposit sediment, forming coastal features such as beaches, spits, and barrier beaches.

- Waves Identifying Main Ideas • As you read the section “Erosion by Waves,” write the main idea in a graphic organizer like the one below. Then write three supporting details that further explain the main idea. Main Idea Waves cause erosion by impact and by abrasion. Detail Detail Detail Energy in waves breaks apart rocks. Sediment wears away rock. Landforms are created.

- Waves Waves • Click the Video button to watch a movie about waves.

- Waves Links on Waves • Click the SciLinks button for links on waves.

End of Section:Waves

- Wind How Wind Causes Erosion • Wind erosion moves sediment particles of different sizes in the three ways shown below.

- Wind Wind Deposition • Wind erosion and deposition may form sand dunes and loess deposits.

- Wind Sequencing • As you read, make a flowchart like the one below that shows the process of wind erosion and deposition. Write each step of the process in a separate box in the flowchart in the order in which it occurs. Wind Erosion Wind picks up smallest particles of sediment. Fine particles are carried through the air. Medium-sized particles skip and bounce. Larger particles slide or roll.

End of Section:Wind

Graphic Organizer Stream Formation Raindrops strike ground. Runoff forms. Rills form. Gullies form. Gullies join together. Stream forms.

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