MAPPING OUR WORLD Chapter 2
Jan 12, 2016
MAPPING OUR WORLDChapter 2
Section 2.1Latitude and Longitude
Cartography is the science of mapmaking, where cartographers use an imaginary grid of parallel lines and vertical lines to locate exact points on Earth.
On this grid, the equator (an imaginary parallel splitting the Earth in half at 0o) separates the Northern and Southern hemispheres.
Latitude Longitude Refers to lines that
measure distances north and south of the equator, running east and west.
Each degree of latitude is about 111km on the Earth’s surface.
To locate positions more exactly, degrees of latitude are broken into smaller units called minutes
There are two points of latitude… the North Pole and the South Pole.
Lines of latitude are parallel
Latitude will have 90o north and south of the equator
Refers to lines that measure east and west of the Prime Meridian (0o), running north and south.
Also referred to as meridians
The Prime Meridian runs through Greenwich, England (the home of the royal Naval Observatory).
Lines of longitude are NOT parallel, but are instead large semicircles that extend vertically from pole to pole.
Longitude will have 180o
east and west of the Prime Meridian.
World Mapping: Points of Interest
Latitude: Equator (0o) Tropics Zone (between 30oN and 30 S of the
equator) Tropic of Cancer (23.5o N) Tropic of Capricorn (23.5o S) Arctic Circle (66.5o N) Antarctic Circle (66.5o S)
Longitude: Prime Meridian (0o) International Date Line (180o)
Where in the World?
Throughout this course, you will need to know the geographical location of many different places, regions, landmasses, and bodies of water: Continents Oceans Large bodies of water (Great Lakes, Rivers) in USA Mountain Ranges in the USA Time Zones with the USA Land description Regions within the USA Individual states within YOUR region
Large Bodies of Water The location of the United States, with its Atlantic and
Pacific coasts, has provided access to other areas of the world.
The Atlantic Ocean not only serves as our eastern border, but has also served as the “highway” for explorers, early settlers, and now… immigrants.
The Pacific Ocean was also an early exploration route.
The Gulf of Mexico provided the French and Spanish with exploration routes to Mexico and other parts of America.
Bodies of water support interaction among regions, form borders, and create links to other areas.
Relevant land and bodies of water within the United States of
America
App
alac
hian
Mou
ntai
ns
Great LakesRocky
MountainsM
ississippi River
The Gulf of Mexico
Regions of the United States of America
The United States of America is divided into 5 main regions:
1. West2. Midwest3. Northeast4. Southeast5. South
The United States is further broken into regions by landmasses / land features…
Breaking down Regions by landform descriptions
1
Coastal
Plain
2Appalachian
Highlands
3Canadian
Shield
4Interior
Lowlands5
Great Plains
6Rocky Mountain
s(CONTINENTAL DIVIDE)
7Basin And
Range8Coastal Range
TIME ZONES The Earth is divided into 24
time zones… because there are 24 hours in the day!
There are SIX designated time zones in the USA:
1. EST (Raleigh) -- TIME2. CST (Chicago) – (-1)3. MST (Denver) – (-2)4. PST (Los Angeles) – (-3)5. AKST (Alaska) – (-4)6. HST (Hawaii) – (-5)
• Each line of longitude, although some have been adjusted for convenience, is represented by 15o on the map.
• Each time you travel through a time zone, you gain or lose time until at some point, you gain or lose an entire day!
• The International Date Line is located at 180o E/W of the Prime Meridian. When you cross this line, you either advance or go back one day.
• If you are traveling west, you advance your calendar one day. If you are traveling east, you go back.
Memory Clue… “we Want to stay ahead, but it is Easy to fall behind.” (Note the “W” stands for west and the “E” stands for
east.)
Section 2.2 Types of Maps
Maps are flat models of a three-dimensional object, Earth.
As the Earth is curved, it is difficult to represent on a piece of paper.
Thus, all flat maps distort the shapes or landmasses to some degree.
Layout of a MapMAP LEGENDS
MAP SCALES
Most maps include both human-made and natural features that are located on the Earth’s surface.
These features are represented by symbols.
A map legend simply explains what these symbols mean.
When using a map, it is imperative that you understand how to measure distances.
The map scale is a tool used to detail the ratio between distances on a map and actual distances on the Earth’s surface.
There are three types: 1. Verbal Scales 2. Graphic Scales 3. Fractional Scales
Mercator Projections A map that has
parallel lines of latitude and longitude.
On a mercator projection, the shapes of landmasses are correct but their areas are distorted.
Used for navigation of ships and planes and automobile road maps.
Conic Projections Made by projecting points
and lines from a globe onto a cone.
The cone touches the globe at a particular line of latitude.
There is little distortion in the areas or shapes of landmasses that fall along this line of latitude; however, distortion occurs near the top and bottom of the projection.
Used to make weather maps.
Gnomic Projections
Made by projecting points and lines from a globe onto a piece of paper that touches the globe at a single point, mainly over the poles.
Accurate shapes of landmasses, but distorted direction and distance between landmasses.
Useful in plotting long-distance trips by air and by sea.
Topographic Maps Show the changes in elevation of the Earth’s surface,
allowing you to determine how steep slopes or depressions of a land area are.
Topographic, or Topo, maps use contour lines to connect areas that have the same elevations. Distances between these lines are referred to as the contour interval and allow you to determine how steep a slope is.
Rules to remember… Contour lines are closer around hills and basins or depressions Hachures (dash marks around a circular region) designate a
depression. Contour lines never cross, as one point cannot have two
elevations. Contour lines form upward V’s, which tell you that there is a
stream present in that location.
Section 2.3Remote Sensing
Until recently, mapmakers had to go on-site to collect data needed to make maps.
Today, advanced technology has changed this – enabling data to be collected by satellites from far above the Earth’s surface.
This process is referred to as remote sensing.
Remote Sensing (cont.)
ELECTROMAGNETIC SPECTRUM
SATELLITES
•The arrangement of electromagnetic radiation according to wavelength.
•An electromagnetic wave also can be described according to its frequency, which refers to the number of waves that pass a particular point each second.
Landsat Topex / Poseidon
•Use visible light and infrared radiation to map the Earth.•Features on the Earth’s surface radiate warmth at different frequencies (such as rivers and forests) and show up as different colors.
•Use radar to map ocean floor features.•Based on data received, computers are able to create maps of ocean-floor features.•Also used to study tidal changes and global ocean currents.
Seabeam TechnologySeabeam technology is used to map the ocean floor using the bottom of different ships.
Seabeam technology relies on sonar, which is the use of sound waves to detect and measure objects underwater.
Basically, a sound wave is sent from a ship to the ocean floor. It is then received by a specific device, and ship computers then calculate the distance to the bottom based on the speed of sound.
Global Positioning System (GPS)
GPS is a satellite based navigation system to pinpoint your exact location on Earth.
GPS utilizes at least 24 different satellites to ensure accuracy.
GPS technology is used extensively for navigation by ships and airplanes and can also be used to detect earthquakes, create maps, and track wildlife.
Lately, GPS has increased in popularity among all travelers.
CompassA compass is used to determine direction
On a compass, the red needle should always be pointing North; however, this does not mean that it is pointing to the North Pole as there is a geographic north and a magnetic north
To determine the difference, the magnetic declination must be determined, which is the difference between geographic north and magnetic north
Depending on your location, the angle of declination will be different