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CARTOGRAPHIC BASICS

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Equal Area Projections Property of equal area commands high priority on most maps used as small scale general reference maps and for instruction – PowerPoint PPT presentation

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Title: CARTOGRAPHIC BASICS

1
COMMON MAP PROJECTIONS

Equal Area Projections
Property of equal area commands high priority
on
most maps used as small scale general
reference
maps and for instruction
Choice of equal area projection depends on
these
two considerations
Size of the region to be mapped
Distribution of the angular deformation (shape
considerations)

2
COMMON MAP PROJECTIONS Equal Area
Figure 5.B.4 A few of the many equivalent world
map projections. (A) cylindrical equal-area with
standard parallels at 30 N and S latitude (B)
sinusoidal projection and (C) Mollweides
projection. The black lines are values of 2O.
From Robinson, Sixth Edition, page 72
3
COMMON MAP PROJECTIONS Equal Area

Albers
Conic projection with two standard parallels
Any two small circles, reasonably close
together are
used
Low distortion, especially along parallels
Resembles earths graticule curved
parallels,
converging meridians
Best for mid-latitude areas with greater
east-west
extension than north-south
Standard for many US Government base maps,
including Census Bureau

4
COMMON MAP PROJECTIONS Equal Area Albers
From Robinson, Sixth Edition, page 81
5
COMMON MAP PROJECTIONS Equal Area

Lamberts
Azimuthal as well as equivalent
Distortion symmetrical around a single point
Point can be located anywhere on globe
Good for areas that have nearly equal
east-west vs.
north-south extension, such as some
individual
states

6
COMMON MAP PROJECTIONS Equal Area

Cylindrical
Two standard parallels which may coincide at
the
equator, but otherwise must be
homolatitudes
Distortion arranged parallel to standard small
circles
When parallels are chosen at 30, this
projection
provides the least overall mean angular
distortion of
any equal area world projection

7
COMMON MAP PROJECTIONS Equal Area

Sinusoidal
Conventionally has straight central meridian
and
equator no angular distortion along either
Illusion of proper spacing useful when
latitudinal
relations are important
Particularly suitable, when properly centered,
for maps
of less-than-world areas - - - South America

8
COMMON MAP PROJECTIONS Equal Area - Sinusoidal
From Robinson, Sixth Edition, page 68
9
COMMON MAP PROJECTIONS Equal Area

Mollweids
Appears more realistic than sinusoidal
North-south decreased in high latitudes and
increased
in mid-latitudes
East-west scale increased in high latitudes
and
decreased in mid-latitudes
Two areas of least distortion are in the
mid-latitudes,
so projection is most useful for those areas

10
COMMON MAP PROJECTIONS Equal Area

Goodes Homolosine
Combines equatorial section of sinusoidal and
poleward
sections of Mollweids
Must be constructed from the same area scale
(ie.
reference globe)
Sinusoidal and Mollweids have one parallel of
identical
length along which they may be joined
Usually used in interrupted form
Popular in the United States

11
COMMON MAP PROJECTIONS Equal Area Goodes
Homolosine
From Robinson, Sixth Edition, page 81
12
COMMON MAP PROJECTIONS

Azimuthal Projections (preserve direction)
Projected on a plane that centered anywhere on
the
reference globe
Line perpendicular to plane passes through
center of
globe
Distortion is symmetrical around the center
point
peripheral distortion is extreme
All great circles passing through the central
point
show as straight lines with the correct
azimuth

13
COMMON MAP PROJECTIONS Azimuthal

Azimuthal Equidistant
Has linear scale, uniform along radiating
straight
lines through center
Movement toward or away from a center point is
well
demonstrated
Works well for mapping radio impulses or
seismic
waves

14
COMMON MAP PROJECTIONS Azimuthal Equidistant
From Robinson, Sixth Edition, page 85
15
COMMON MAP PROJECTIONS Azimuthal

Orthographic
Looks something like a perspective view of the
globe
from a distance
Distortion is less visually obvious than on
other
azimuthal projections
Useful for illustrations which portray the
globe as a
sphere

16
COMMON MAP PROJECTIONS Azimuthal

Gnomic
All great circle arcs are straight lines
everywhere on
the projection
Useful primarily for marine navigation

17
COMMON MAP PROJECTIONS Azimuthal
Stereographic Lamberts Equal Area Azimuthal Equ
idistant Orthographic Gnomic
From Robinson, Sixth Edition, page 84
18
COMMON MAP PROJECTIONS

Special Purpose Map Projections
Plane chart/equidistant cylindrical/PlateCarrée
/
equirectangular
Oldest and simplest map projection
Used for navigation before Mercator
Good for city maps and base maps of
small areas
Simple conic
Uses two standard parallels equidistant
from
equator
No great distortion of angles or areas
Often used in atlases for mid-latitude areas

19
COMMON MAP PROJECTIONS Special Purpose
Equidistant Cylindrical/Plane Chart
From Robinson, Sixth Edition, page 86
20
COMMON MAP PROJECTIONS Special Purpose Simple
Conic
From Robinson, Sixth Edition, page 87
21
COMMON MAP PROJECTIONS

Special Purpose Map Projections, cont.
Polyconic not conformal or equal area
Used by the U.S. for topo sheets until 1950s
can fit
topos together in one direction or another, but
not all
Robinsons not conformal or equal area
Commissioned in 1961 by Rand McNally to show
uninterrupted world maps at all scales
Minimizes the appearance of shape and area
distortion

22
COMMON MAP PROJECTIONS Special Purpose -
Polyconic
The distribution of scale factors on a polyconic
projection in the vacinity of 40 latitude. N-S
SF values away from the central meridian are
approximate. Note that the section of the
projection which is used for a standard
7.5-minute quadrangle map would be 1/8 degree E-W
and N-S along the central meridian.
From Robinson, Sixth Edition, page 88, 89
23
COMMON MAP PROJECTIONS