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Landforms Content. Competency Goal 2: The learner will make observations and conduct investigations to build an understanding of landforms. Alex Richardson Elementary Science Coach arichard@wsfcsk12.nc.us.
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Landforms Content Competency Goal 2: The learner will make observations and conduct investigations to build an understanding of landforms. Alex Richardson Elementary Science Coach arichard@wsfcsk12.nc.us
Objective 2.01Identify and analyze forces that cause change in landforms over time including water, wind, and gravity • The Earth’s surface changes over a period of time. • Slow processes of weathering and erosion are caused by water, wind, glaciers, and the force of gravity. • Exposed surface areas of rocks are subject to increased weathering as rocks break apart.
Objective 2.01 cont’d • Weathering and erosion are slow processes that wear away rocks and carry away sediment. • Weathering is the process that breaks down rock and other materials at Earth’s surface. • Erosion is the movement of rock particles by wind, water, ice, or gravity.
Types of Weathering • Mechanical (physical change): rock is physically broken into smaller pieces and have the same composition as the rock they came from • Chemical (chemical change): rock changes from chemical reactions which produce rock particles that have different substances
Forces of Mechanical Weathering Heating and Cooling Freezing and Thawing Plant Growth Abrasion
Heating and Cooling • The outside of a rock can be heated more rapidly than the inside by the sun or a forest fire. • This heating may cause the outside of the rock to flake off. • Rain may help the cooling process by suddenly cooling heated rock causing it to crack.
Freezing and Thawing • Water seeps into cracks in rocks and freezes when the temperature drops. • Water expands when it freezes. • The most important force of mechanical weathering is freezing and thawing in cool climates.
Freezing and Thawing cont’d • Wedges of ice and rocks that widen and deepen cracks is a process called ice wedging. • When ice melts, the water seeps deeper into the cracks. • Repeated freezing and thawing slowly expands cracks until pieces of rock break off.
Plant Growth • Roots of trees and other plants enter cracks in rocks. • Cracks in rocks are forced farther apart as the roots grow. • Over time, the roots of small plants can pry apart cracked rocks.
Abrasion • Wind driven sand helps shape rocks. • Wind, water, or ice can carry sand and other rock particles to aid in weathering. • Exposed rock surfaces face weathering slowly over spans of time as abrasive materials pound against it.
Forces of Chemical Weathering Water Oxygen Carbon Dioxide Living Organisms Acid Rain
Objective 2.02 Investigate and discuss the role of the water cycle and how movement of water over and through the landscape helps shape landforms. • Water is constantly recycled through the environment in the water cycle. • The water circulates up, down and around and among the ocean, atmosphere and land as a continuous process. • The sun is the primary energy source that powers the water cycle.
Role of Water Cycle • The water cycle is one of Earth’s cycles that sustains life. • The water cycle is a vital component in the shaping of the land. • The cycling of water is composed of several different phases that include evaporation, condensation, precipitation, and run-off.
Components of the Water Cycle • Water storage in oceans • Water storage in ice and snow • Snowmelt runoff to streams • Water in the atmosphere • Evaporation • Sublimation • Springs • Evapotranspiration
Components of the Water Cycle (cont’d) • Infiltration • Surface runoff • Freshwater storage • Ground-water storage • Ground-water discharge • Condensation • Precipitation • Stream flow
Location of Earth’s Water • Water covers about 75% of Earth’s crust. • Most saltwater, 97.2 %, is in the oceans. • Less than 3% of Earth’s water is freshwater. Frozen icecaps and glaciers 2.15% Groundwater 0.62% Surface water 0.03%
Movement of Water • The amount of water cycling through the water cycle is one factor shaping landforms. • A falling raindrop starts the process of erosion and creating landforms. • The force of a falling raindrop can loosen or pick up soil particles.
Movement of Water (cont’d) • Soil particles are carried as water moves over the land. • The moving water is called runoff. • Runoff is the remaining water that moves over and through the Earth’s surface. • Movement of water is one of the main forces that causes erosion.
Objective 2.03 Discuss and consider the wearing away and movement of rock and soil erosion and its importance in forming: canyons, valleys, meanders, and tributaries. • Moving water can weather and erode rocks and soils. • The breaking down of Earth’s surface creates some landforms through processes of weathering or erosion. • Various landforms such as canyons, valleys, meanders, and tributaries were primarily created by the constant flow and wearing action of a river or stream.
Landform Formations • Canyons are formed by weathering action from the force of water. As the force of water shapes the land, areas are exposed to weathering and erosion. • Valleys can be formed as a result of river erosion. The river is often fast-flowing and generally follows a straight, narrow course. Steep slopes along the river erode rapidly creating a deep v-shaped valley.
Landform Formations (cont’d) • Valley glaciers form when snow and ice build up high in a mountain valley. • The sides of mountains keep these glaciers from spreading out in all directions. • Valley glaciers usually move down valleys that have already been cut by rivers and have a u-shape.
Landform Formations (cont’d) • Meanders develop where water flows through easily eroded rock or sediment. A meander is a looplike bend in the course of the river. • Meanders are common along gently sloping flood plains of a river as it widens from side to side. Meanders erode the outer bank and deposit sediment on the inner bank of a bend. Over time the meander becomes more and more curved.
Landform Formations (cont’d) • A tributary is a stream that flows into a larger stream. Large tributaries can also flow into large streams or rivers. • A river begins at its headwaters, or head which is usually a mountainous region. • A river ends at its mouth. A delta often forms at a river’s mouth, but not always.
Objective 2.04 Describe the deposition of eroded material and its importance in establishing landforms including deltas and floodplains. • Deposition from runoff, rivers, groundwater erosion, glaciers, waves, and wind creates some landforms. • Some landforms are formed from erosive forces of water and wind. • New landforms are shaped by transported sediment that is deposited during the course of its movement.
Deposition by Rivers • Sediments are carried with water as it moves. When moving water slows down, it drops or deposits some of the sediment. • As water slows, fine particles fall to the river’s bed. Larger stones quit rolling and sliding. • Alluvial fans are created when a stream suddenly becomes wider and shallower. The water slows down and sediments are deposited in an alluvial fan. This deposit is shaped like a fan.
Deposition by Rivers (cont’d) • A delta is formed when sediment is deposited where a river flows into an ocean or lake. The sediment in the water drops to the bottom and builds a landform. • A flood plain forms when a river’s power of erosion widens its valley rather than deepening it. The river spreads out and erodes the land depositing sediment as new soil.
Objective 2.05 Discuss how the flow of water and the slope of the land affect erosion. • When gravity pulls water down a slope, water’s potential energy changes to kinetic energy, and it does work. • Water running down hill is a dominate erosion process; the steeper the slope the more material will be eroded. • Some landforms are made by the slope of the land and the amount of running water.
Flow of Water • The power of a river to cause erosion and carry sediment depends on several factors. • A fast-flowing river carries more and larger particles of sediment. • Larger particles of sediment are deposited first when a river slows down.
Flow of Water (cont’d) • Most sediment washes or falls into streams or is eroded from streambeds by abrasion. • The slope of an area and the amount of water delivered to an area contributes to the erosion of the land. • A typical river transports most sediment in suspension, a lesser amount in solution, and the least amount along its bed.
Slope of the Land • If the slope increases, then the water’s speed also increases. • The slope of an area and the amount of water delivered to an area contributes to the rate of erosion. • An increased slope and water flow result in an increased rate of erosion.
Objective 2.06 Identify and use models, maps, and aerial photographs as ways of representing landforms. • Maps are abstractions of realities and can represent large or small areas. • Maps and models are ways of representing information about your neighborhood, city, state, county, and waterways. • Floor plans can be considered a map of your home.
Topographic Maps • Topographic maps show surface features of an area. • Topographic maps use a variety of symbols to portray the land as if you were looking down on it from above. • Topographic maps provide data necessary for the planning of bridges, highways, and other large construction projects.
Topographic Maps (cont’d) • Topographic maps provide highly accurate information on the elevation, relief, and slope of the ground surface. • Topographic maps are usually large scale maps. The larger the scale of a map, the smaller the area covered. • Large scale maps show a close-up view of part of the Earth’s surface.
Topographic Maps (cont’d) • Most nations have a government agency that is responsible for making topographic maps. • In the United States, that agency is the U.S. Geological Survey, or USGS. • Many USGS maps are at a scale of 1:24,000, or 1 in.=2,000 ft.
Models • A model is a representation of how something works. • Models are useful to study objects or systems. • Models can construct meaning through visual representation. • Some models can be physical or generated on a computer.
Aerial Photographs • Aerial photographs are taken from airplanes to make highly accurate maps, thus given the name aerial photographs. • Aerial photographs aid scientists in understanding Earth. • Pictures are taken from satellites to display the Earth’s land surface-plants, soil, water, sand, rock, snow and ice.
Objective 2.07 Discuss and analyze how humans influence erosion and deposition in local communities, including school grounds, as a result of: clearing land, planting, vegetation, and building dams. • Land use impacts erosion and deposition of soils. • Humans can have a positive influence and negative affect on the land. • The geography or topography can be affected by humans.
Human Influences • Erosion carries away soil particles. • Deposition is the process of depositing transported or eroded materials. • Vegetation helps to decrease the rate of erosion. • Dams assist in the containment of water to prevent flooding and erosion.