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Chapter 2-Mapping our World

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1 Chapter 2-Mapping our World
Integrated Science

2 Cartography Cartography is the science of mapmaking
Mapmakers are also called cartographers Cartographers use an imaginary grid of parallel lines and vertical lines to locate points on Earth exactly!

3 The Equator circles the Earth halfway between the north and south poles and divides the Earth into 2 equal sections called the Northern Hemisphere and the Southern Hemisphere. The Prime Meridian runs through Greenwich, England and extends through the north and south poles. It divides the Earth into 2 equal sections called the Western Hemisphere and the Eastern Hemisphere.

4 Latitude Latitude is the distance in degrees north or
south of the equator The equator is labeled as 0 latitude The north and south poles are labeled as 90 latitude Above the equator is labeled north Below the equator is labeled south

5 Latitude

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7 Longitude Longitude is the distance in degrees east or
west of the prime meridian The prime meridian is labeled as 0 longitude Lines of longitude converge at the poles The line at the opposite side of the prime meridian is the 180 line To the right of the prime meridian is labeled East To the left of the prime meridian is labeled West

8 Longitude

9 Latitude comes first when writing coordinates!

10 Time Zones Earth is divided into 24 time zones
Earth takes about 24 hours to rotate once on its axis The 24 time zones each represent 1 hour Each time zone is 15 wide (basically corresponding to a line of longitude) Some time zone boundaries have been moved to avoid confusion

11 Time Zones

12 The U.S. has 7 time zones

13 International Date Line
The International Date Line, or 180 meridian, serves as the transition line for calendar days If you travel west across the line, you would go up one calendar day If you travel east across the line, you would go down one calendar day

14 International Date Line

15 Projections Cartographers use projections to make maps
Made by transferring points and lines on a globe’s surface onto a sheet of paper Conic projection Mercator Projection Gnomonic Projection Interrupted Projection

16 Detailed maps showing the hills and valleys of an area
Shows: Changes in Elevation Mountains Rivers Bridges Major Landmarks Uses lines, symbols and colors to represent changes in elevation & features on Earth’s surface Topographic Maps

17 Contour Lines Represent elevation on a topographic map
Connect points of equal elevation Elevation: Distance of a location above or below sea level Never cross (1 spot cannot have more than 1 elevation)

18 Contour Intervals The difference in elevation between two side-by-side contour lines Dependent on the terrain Contour lines close together indicate a steep slope Contour lines far apart indicate a gradual slope

19 Depression Contour Lines
Used to represent elevations that are lower than the surrounding landscape. Depression contour lines have hachures Hachures: Short lines at right angle to the contour line

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21 MAP LEGENDS A map legend explains what the symbols on a map represent

22 MAP SCALE The ratio between distances on a map and actual distances on the surface of Earth

23 Fractional Scale: Expresses distance as a ratio
Verbal Scale: Expresses distance as a statement Graphic Scale: A line that represents a certain distance

24 Process of collecting data about Earth from far above the Earth’s surface
Satellites detect different wavelengths of energy reflected or emitted from Earth’s surface Energy has both magnetic and electric properties REMOTE SENSING

25 ELECTROMAGNETIC SPECTRUM
The range of electromagnetic radiation waves

26 Plants reflections IR range

27 Types of Remote Sensing
Landsat: Receives reflected wavelengths of energy emitted by Earth’s surface Used to identify features on Earth’s surface and to study the movements of Earth’s plates, rivers, earthquakes and pollution

28 Types of Remote Sensing
Topex/Poseidon Satellite: Use radar to map features on the ocean floor

29 Types of Remote Sensing
GPS (Global Positioning System): Radio-navigation system of at least 24 satellites that allow users to determine their exact position on Earth. Calculates your latitude/longitude/speed/etc.

30 Types of Remote Sensing
Sea Beam: Used to map the ocean floor Located on an ocean ship Uses sonar (sound waves)


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