Chapter 2 – Planet Earth
Section NotesEarth and the Sun’s EnergyWater on EarthThe Land
VideoImpact of Water on Earth
ImagesSolar EnergyThe Seasons: Northern
HemispherePlate SeparationPlate CollisionMount Saint Helens Eruption
Quick FactsChapter 2 Visual Summary
MapsRing of FireEarth’s PlatesIndia: PhysicalPhysical Map
Close-upThe Water Cycle
World AlmanacMajor Eruptions in the Ring of
Fire
Earth and the Sun’s Energy
The Big Idea
Earth’s movement and the sun’s energy interact to create day and night, temperature changes, and the seasons.
Main Ideas
• Earth’s movement affects the amount of energy we receive from the sun.
• Earth’s seasons are caused by the planet’s tilt.
Main Idea 1:Earth’s movement affects the amount of
energy we receive from the sun.
• All life on Earth requires solar energy, or energy from the sun, to survive.– Amount of solar energy received changes
constantly
– Earth’s rotation, revolution, tilt, and latitude all affect the amount of solar energy Earth receives.
Rotation and Revolution
Rotation
• Earth spins on its axis—an imaginary line that runs through the center of the planet around which it turns.
• It takes Earth 24 hours to make one rotation, or complete spin on its axis.
• As Earth spins, different parts of the planet face the sun, thus causing the changes from day to night.
Revolution
• Earth follows an orbit, or path, around the sun.
• Orbit is not a perfect circle.
• It takes Earth 365¼ days to complete one revolution, or trip around the sun.
• Our calendar year is based on the time it takes Earth to complete its orbit.
Tilt and Latitude
Tilt
• Earth’s axis is tilted at an angle of 23½ degrees from vertical.
• At any give time of year, some places on Earth tilt toward the sun, and others tilt away.
• Places tilting toward the sun receive more solar energy and have warmer temperatures than those that tilt away.
Latitude
• Latitude is the distance north or south of Earth’s equator.
• Low-latitude areas, those nearest the equator, receive direct rays from the sun all year.
• High-latitude areas, those farther from the equator, receive indirect rays from the sun and have colder temperatures.
Main Idea 2: Earth’s seasons are caused by the
planet’s tilt.
• Seasons are periods during the year that are known for a particular type of weather.
– Many places experience four seasons—winter, spring, summer, and fall.
– In some parts of the world, seasons are based on the amount of rainfall
The Seasons
Winter and Summer
• Earth tilts away from sun in winter and towards the sun in summer.
• Because of the Earth’s tilt, the Northern and Southern hemispheres experience opposite seasons.
Spring and Fall
• In spring, Earth begins to tilt toward sun, solar energy increases, temperatures rise, and days grow longer.
• In fall, the opposite occurs.
Rainfall and Seasons
• In the tropics, regions close to the equator, seasons are marked by rainfall rather than temperature.
• At certain times of year, winds bring either dry or moist air to the tropics, creating wet and dry seasons.
Water on Earth
The Big Idea
Water is a dominant feature on Earth’s surface and is essential for life.
Main Ideas
• Salt water and freshwater make up Earth’s water supply.
• In the water cycle, water circulates from Earth’s surface to the atmosphere and back again.
• Water plays an important role in people’s lives.
Main Idea 1: Salt water and freshwater make up Earth’s
water supply.
• About 97 percent of the Earth’s water
• Unsafe to drink because of high levels of salt
• In general, found in Earth’s oceans, which cover some 71 percent of the planet’s surface
• Also found in some of Earth’s lakes
Earth’s Water • Water covers some two-thirds of the planet.
Salt Water
• Water without salt
• Makes up only 3 percent of our water supplyFreshwater
Freshwater
• Much of Earth’s freshwater is locked in glaciers, large areas of slow moving ice, and in the ice of the Arctic and Antarctic regions.
• Surface water is water that is found in Earth’s streams, rivers, and lakes.– Less than one percent of Earth’s water supply
– Streams, rivers, and lakes are common sources.
• Precipitation is water that falls to Earth’s surface as rain, snow, sleet, or hail.– Streams form when precipitation collects in a narrow channel and
flows toward the ocean.
• Most available freshwater is groundwater, water found below Earth’s surface.– Some naturally bubbles from the ground to the surface as a spring.
– Most obtained by digging wells
Main Idea 2: In the water cycle, water circulates from
Earth’s surface to the atmosphere and back again.
• Water is the only substance on Earth that occurs naturally as a solid, a liquid, and a gas, or water vapor.
• The water cycle is the movement of water from Earth’s surface to the atmosphere and back ; it is driven by the sun’s energy.
– Evaporation—water turns from liquid to gas.
– Condensation—the rising gas cools and condenses, or changes from a vapor into tiny liquid droplets, to form clouds.
– Precipitation—if the droplets in clouds become heavy enough, they fall back to Earth as rain, snow, sleet, or hail.
– Runoff—excess water that isn’t absorbed as groundwater flows over land and collects in streams, rivers, and oceans.
Main Idea 3:Water plays an important role in
people’s lives.
Water Problems• Lack of available
freshwater, which can be caused by droughts or overuse
• Contaminated, or polluted, water can harm humans, plants, and animals.
• Flooding can damage property and threaten lives.
Water Benefits
• Provides us with food to eat
• Important source of energy
• Provides us with recreation, including swimming, fishing, surfing, and sailing
The Land
The Big Idea
Processes below and on Earth’s surface shape the planet’s physical features.
Main Ideas
• Earth’s surface is covered by many different landforms.
• Forces below Earth’s surface build up our landforms.
• Forces on the planet’s surface shape Earth’s landforms.
• Landforms influence people’s lives and culture.
Main Idea 1:Earth’s surface is covered by many different
landforms.
• Landforms, or shapes on the planet’s surface, make up the landscapes that surround us.
• Earth’s surface is covered with landforms of many different shapes and sizes.– Mountains, land that rises higher than 2,000 feet
– Valleys, areas of low land located between mountains or hills
– Plains, stretches of mostly flat land
– Islands, areas of land completely surrounded by water
– Peninsulas, land surrounded by water on three sides
Earth’s Plates
Movement of Continents
• The planet’s continents, or large landmasses, are part of Earth’s crust—the solid outer layer of the planet.
• Theory of plate tectonics suggests that Earth’s surface is divided into a dozen or so slow-moving plates, or pieces of Earth’s crust.
• The idea that continents have traveled great distances over millions of years is known as continental drift.
• Theory, developed by Alfred Wegener, states that the continents were once united in a single supercontinent and over time, slowly separated and moved to their present positions.
• As plates collide, separate, and slide, they shape Earth’s landforms
Main Idea 2: Forces below Earth’s surface build up our
landforms.
Plates Collide, Separate, and Slide
Plates Collide• Two ocean plates:
one pushes under the other, creating ocean trenches, or deep valleys in ocean floor
• Ocean and continental plate: ocean plate drops beneath continental plate, forcing land above to crumple and form mountain range
• Two continental plates:land pushes up to form mountains
Plates Separate• As plates move
apart, gaps between plates allow magma to rise to Earth’s crust.
• Lava, magma that reaches the Earth’s surface, emerges from the gap.
• As lava cools, it builds a mid-ocean range, or underwater mountain, that can rise above the surface of the ocean to form islands.
Plates Slide• As plates pass by
each other, they sometimes grind together, producing earthquakes, sudden, violent movements of Earth’s crust.
• Earthquakes often take place along faults, or breaks in Earth’s crust where movement occurs.
• The region around the Pacific plate, called the Ring of Fire, is home to most of the world’s earthquakes and volcanoes.
Main Idea 3: Forces on the planet’s surface shape
Earth’s landforms.
• Weather, water, and other forces change Earth’s landforms by wearing them away or reshaping them.
• Weathering is the process by which rock is broken down into smaller pieces called sediment.– Heating and cooling can cause rocks to crack.
– Expansion of water as it freezes can cause cracks to expand.
– Roots of trees can pry rocks apart.
• Erosion is the movement of sediment from one location to another.– Can wear away or build up landforms
Types of Erosion
Wind Erosion
• Winds lift sediment into air and carry it across great distances .
• On beaches and in deserts, deposits can form dunes.
• Blowing sand can wear down rock.
Glacial Erosion
• Glaciers, or large, slow-moving sheets of ice, erode the land by carving valleys and mountain peaks.
• Crush rock into sediment and move it great distances
Water Erosion
• Waves and flowing water can cut through rock, carry sediment, and deposit sediment in new locations.
• Floodplains are created when rivers flood their banks and deposit sediment.
• Sediment carried by a river all the way to the sea creates a delta.
Main Idea 4:Landforms influence people’s lives and
culture.
Landforms can influence where people settle.
Landforms can affect language.
Landforms often influence what jobs are available in a region.
People sometimes change landforms to suit their needs.
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