alternate coordinate systems: solutions for large-scale maps universal transverse mercator (utm)...
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Alternate coordinate systems:Solutions for large-scale maps
• Universal Transverse Mercator (UTM)• State Plane Coordinate System
(SPCS)
(0,0)
+
-
+- X axis
Y a
xis
• US Public Land Survey (USPLS)
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The Geographic Coordinate System:
Strengths:– One set of coordinates can describe an exact location
anywhere on the globe
– Based on the earth’s spherical shape
1 degree = 60 minutes
1 minute = 60 seconds
The length of 1 ° longitude varies
Issues: Subdivision of degrees:
1° = 60’ 1’ = 60”
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UTM Grid System:Why it was developed
• UTM = Universal Transverse Mercator
• Developed shortly after World War II by US Army
• Now, UTM system used widely for precise positioning
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Mercator Transverse Mercator
1 UTM zone:6 degrees wide
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• Is divided into north-south columns known as zones (between 80°S and 84°N)
•Zones are numbered 1 to 60 eastward from the Int’l Date Line
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UTM Zones for the United States
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Origin
Logic of the UTM GridZone 12
500,000 m
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Reading the UTM Grid
Easting is measured from the central meridian + 500,000 m
Northing is measured from the equator
Austin is:
621,161 m E,3,349,894 m N,
Zone 14 N,NAD 83
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Some additional facts about UTM
Accuracy level of UTM --
Maximum error is:
1 m / 1000 m(5 feet in a mile)
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Designating location: GCS
• Geographic Coordinate System
33° 40’ 12” North 111° 55’ 30” WestDeg. Min. Sec. Hemisph. Deg. Min. Sec. Hemisph.
• Universal Transverse Mercator
621,100 m E, 3349,800 m N, Zone 14 N, NAD 83Easting, Northing, Zone, Datum
Or, on topo map:621100 m E, 3349800 m N
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Comparing coordinate systems
• Universal Transverse Mercator (UTM)
• State Plane Coordinate System (SPCS)
(0,0)
+
-
+- X axis
Y a
xis
• US Public Land Survey (USPLS)
• The Geographic Coordinate System
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The Geographic Coordinate System: Longitude and latitude
LongitudeLatitude
33° 30’ 00” North, 112° 00’ 00” WestDegrees, Minutes, Seconds N, Degrees, Minutes, Seconds W
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The United States Public Land Survey: The National Picture
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The United States Public Land Survey: Townships & Ranges
Tow
nshi
ps
Ranges
SurveyTownship
6 mi.
T 2 S, R 3 W, Gila and Salt River MeridianTownship, Range, Principal Meridian
T 2 S, R 3 W, Gila and Salt River MeridianTownship, Range, Principal Meridian
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Choosing a Coordinate System
Cartesian coordinate systems:– When precise measurements of distance & area
are needed– Choose a system based on size & position
USPLS UTM
Geographic Coordinate system:– Thematic maps – coordinates give general idea of
location on globe
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Use of Known Features
Size of known objects may be visible on the map—particularly true with aerial photographs
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In real life:
Athletic field is 130 yards
On the photo:
Athletic field 7/8 inch
5349
1
875.04680
875.0875.0
4680
0.875
inches 36*130
inches 875.0
yards 130
inches 87
Photo scale =Approx 1:5,350
Strategy:
1. Create a fraction:
Map distance / real distance
2. Simplify:
• Numerator & denominator are in same units
• numerator is “1”
Strategy:
1. Create a fraction:
Map distance / real distance
2. Simplify:
• Numerator & denominator are in same units
• numerator is “1”
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Use of Latitude and Longitude
750,628,12
1
8.8000,133,111
8.88.8
cm 100,000*1111.33
cm 8.8
km 1111.33
cm 8.8
In real life:
1° latitude = 111.13 km
10° latitude = 1,111.3 km
Strategy:
1. Create a fraction:
Map distance / real distance
2. Simplify: • Numerator & denominator are in
same units• numerator is “1”
Strategy:
1. Create a fraction:
Map distance / real distance
2. Simplify: • Numerator & denominator are in
same units• numerator is “1”
Map scale =approx
1:12,628,750
On the map:
10° latitude = 8.8 cm
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Using longitude instead:
If using longitude, remember they converge at the poles. Calculate the distance with the following formula:
Distance = cos(latitude) x 111.113km
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Map Comparison
Use a map with a known scale and compare features on the map with unknown scale
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1:5200
6 inches 5 inches
1. Measure the distance between same pair features on both maps
1. Measure the distance between same pair features on both maps
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1:5200
6 inches 5 inches
2. Calculate the real- world distance on the map with the known scale
2. Calculate the real- world distance on the map with the known scale
6” = x” on ground?
6” = 5200” x 6
6” = 31,200” on ground
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1:5200
6 inches 5 inches
5” = 31,200” on ground
1” = 31,200” / 5
1” = 6240” on ground
3. Calculate the ratio – as before – of the map with unknown scale
3. Calculate the ratio – as before – of the map with unknown scale
1:6240
6” = x” on ground?
6” = 5200” x 6
6” = 31,200” on ground
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Scale and area
RFs are LINEAR scales, and can be used to measure lines but not areas (at least not directly)
1:5200
9 square inches, 1:5200 map:9 sq in (map) = 46,800 sq in (ground) ?
NO! That would imply that, from McAllister to Palm Walk is 207 inches on the ground!
1 2 3
4 5 6
7 8 9
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Scale and area
• To calculate AREA from a linear scale …
1:5200
3 inches on each (linear) side3”map = 5200 x 3”ground
3”map = 15,600” ground
15,600” / 63,360in/mi = .246 mi
.246 mi x .246 mi =.064 mi2
3”
3”
Strategy:
1. Measure width & height of area (on map):
2. Use RF to calculate the area’s width & height in real world • Convert to more convenient
real-world units
3. Multiply real-world width x height
Strategy:
1. Measure width & height of area (on map):
2. Use RF to calculate the area’s width & height in real world • Convert to more convenient
real-world units
3. Multiply real-world width x height
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New points about scale … Two common RF’s:
– 1:63,360 1 inch represents 1 mile– 1:100,000 1 cm represents 1 km– Use these two RFs to be able to visualize the meaning of
other RF’s
Strategies for solving scale problems:– To calculate RF for a map of unknown scale
1. Create a fraction:Map distance / real distance
2. Simplify: Numerator & denominator are in same units numerator is “1”
– To calculate land area: 1. Find height and width in real-world units2. Multiply these 2 values