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Maps are flat models of 3-D objects. All flat maps distort the shapes and areas of land masses to some extent. We will talk about 4 types of maps: Mercator.

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Presentation on theme: "Maps are flat models of 3-D objects. All flat maps distort the shapes and areas of land masses to some extent. We will talk about 4 types of maps: Mercator."— Presentation transcript:

1 Maps are flat models of 3-D objects. All flat maps distort the shapes and areas of land masses to some extent. We will talk about 4 types of maps: Mercator Projections Conic Projections Gnomonic Projections Topographic Maps

2 Similarities Between Maps All maps contain: map legend  explains what the symbols within a map represent map scale  the ratio between distances on a map and actual distances on the surface of Earth

3 Mercator Projections A map that has parallel lines of latitude and longitude. *when lines of longitude are projected as being parallel on a map, landmasses near the poles appear to be larger than they really are. *but the shapes of the landmasses are shown accurately. These maps are good for navigation of planes and ships.

4 Conic Projections A map made by projecting points from a globe onto a cone. *landmasses are distorted at the top and bottom of the map, but very accurate along the line where the cone touches the earth These projections are used to make road maps and weather maps.

5 Gnomonic Projections A map made by projecting points and lines from a globe onto a piece of paper that touches the globe at one point. *distort distances and direction between landmasses. Good for plotting long distance trips by air because they show the earth’s great circles.

6 Topographic Maps

7 What is a Topographic Map? In contrast to most maps, a topographic map shows the shape of the Earth’s surface by using contour lines.

8 Contours are imaginary lines that join points of equal elevation above or below sea level.

9 The contour interval is the difference in elevation between two side-by-side contour lines. The contour interval must be the same throughout the entire map!!

10 Let’s take a walk up a hill!

11 We’re now at an elevation of 100 meters. 100m

12 Let’s keep going! 100m

13 Now we’re at 200m. 100m 200m

14 Shall we march on? 100m 200m

15 We’ve made it to 300m! 100m 200m 300m

16 On to the peak! 100m 200m 300m

17 We’re on the peak, but what’s our elevation? 100m 200m 300m

18 Any ideas? 100m 200m 300m Let’s add contour lines for every 50 meters and see if that helps.

19 100m 200m 300m We know that we are above 350m, but less than 400m. 50m 150m 250m 350m

20 100m 200m 300m Let’s head down the hill, it’s getting late! 50m 150m 250m 350m

21 100m 200m 300m Now what’s our elevation? 50m 150m 250m 350m If you said somewhere between 200m and 250m you are right!

22 100m 200m 300m Let’s try this again! 50m 150m 250m 350m

23 100m 200m 300m What’s our elevation now? 50m 150m 250m 350m If you said 50m or just under, you’re right!

24 Let’s now look at the same hill, but the way we might see it from an airplane!

25 Each color change represents a 50 meter increase.

26 Now, let’s try the same hike! Our elevation is 0 meters.

27 Now what is our elevation?

28 If you said more than 150 meters, but less than 200 meters your right!

29 Let’s go a little higher.

30 Think you know our elevation now? More than 300meters But less than 350meters

31 If we were standing on the peak, what would be our elevation? More than 350 meters, less than 400 meters

32 Let’s head down hill.

33 Know our elevation?

34 More than 100 meters, less than 150 meters

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36 What about a crater? For landmarks like craters or other depressions, we use contour lines with hachures (HASH-ers). The hachures point toward the lower elevation.

37 Let’s see what you know. 400m 800m 1000m 1200m A B C D E F 600m

38 Grab a piece of paper and write your answers to the following questions. Ready?

39 1. Could the elevation at the peak (B) be 1410 meters? 400m 800m 1000m 1200m A B C D E F 600m

40 2. What is the elevation at (E)? 400m 800m 1000m 1200m A B C D E F 600m

41 3.What is the elevation difference between (A) and (B)? 400m 800m 1000m 1200m A B C D E F 600m

42 4. Could the elevation at (F) be 417 meters? 400m 800m 1000m 1200m A B C D E F 600m

43 5. If you walked a straight line from (D) to (C) would you walk over a ridge or down a valley? 400m 800m 1000m 1200m A B C D E F 600m

44 6.Just looking at the map, would it be easier to head down from the peak going East, or going North? 400m 800m 1000m 1200m A B C D E F 600m E N S W

45 1. No :The elevation must be under 1400 meters, but over 1300 meters. 2. about 400 meters

46 3. (A) is probably close to the 750 meter line, (B) is above 1300 meters. The difference between the two would probably be 650 to 700 meters.

47 4. No: It must be more than 700 meters and less than 800 meters. 5. Down a valley: If the contour lines point up the slope it’s a valley, if they point down the slope it’s a ridge.

48 6. East: When contour lines are close together that means there is a steep slope, the further apart the lines, the more gentile the slope and therefore an easier walk! Go east!

49 Remote sensing The process of collecting data about Earth from far above Earth’s surface. SATELLITES!

50 How do satellites do it? Satellites detect different wavelengths of energy reflected or emitted from Earth’s surface. (electromagnetic radiation)

51 What is electromagnetic radiation? Visible light Gamma rays X-rays Ultraviolet light Infrared waves Radio waves microwaves All of these electromagnetic waves travel at the speed of light.

52 Wave characteristics The different types of waves have different wavelengths. Wavelength – The distance between a point on one wave and the same point on the next wave.

53 Landsat Satellite Measure energy emitted from the earth’s surface  different types of land or water emit different wavelengths of energy Scans the entire surface of the earth in 16 days Used to study the movements of Earth’s plates, rivers, earthquakes and pollution

54 The Global Positioning System (GPS) 24 satellites (and 3 spares) emit high frequency waves with information about the satellites’ positions. The handheld GPS unit picks up signals from several satellites at once, allowing the location to be pinpointed. The satellites can also relay information about elevation, direction and speed.

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56 How GPS Works A fourth GPS is required to determine the exact location and elevation.

57 Sea Beam Uses sonar to create a map of the ocean floor. Sonar – a sound wave is sent out and the returning echo is received when after it bounces off an object. Computers analyze information about the echo to determine information about the ocean floor.


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