Georeferencing - Part 1

Question 1

Geodesy

Answer 1

Branch of mathematics dealing with the shape and area of the Earth or large portions of it.

Question 2

Datum (3 parts)

Answer 2

Refers to a reference or foundation surface against which accurate position measurements are made.

Defines how a coordinate system is seathed over the ellipsoid

A “connected” unified network of measurements,

Question 3

Examples of different datums

Answer 3

North American Datum 1927 (NAD27)

New North American Datum, 1983 (NAD28)

Tokyo 97

NAD83,

WGS 84

Question 4

Ellipsoid

Answer 4

An ellipsoid is a three-dimensional geometric figure that resembles a sphere, but whose equatorial axis is slightly longer than its polar axis

Question 5

Geoid

Answer 5

the hypothetical shape of the earth, coinciding with mean sea level and its imagined extension under (or over) land areas.

a ‘lumpy’ ellipsoid.

Question 6

DEM

Answer 6

Digital Elevation Model

Question 7

The Earth’s Shape (3 parts)

Answer 7

“Lumpy” Geoid

Imperfect Oblate Ellipsoid (Spheroid)

Slightly flattened at the North and South poles

Question 8

Ellipsoid vs Geoid

Answer 8

Ellipsoids are commonly used as surrogates for geoids so as to simplify the mathematics involved in relating a coordinate system grid with a model of the Earth’s shape.

Question 9

Ellipsoids and Geodesy

Answer 9

Ellipsoids provide a practical solution to measuring earth’s ‘lumpy’ surface.

Ellipsoids are used as surrogates for geoids, simplying the mathematics involved in relating a coordinate system grid with a model of the Earth’s shape.

Question 10

Digital Elevation Model (DEM)

Answer 10

Generic term used to describe a continuous digital elevation surface above sea level.

Question 11

Datum Types

Answer 11

Horizontal

Vertical

Question 12

horizontal datum

Answer 12

A collection of points on the Earth that have been identified according to their precise northerly or southerly location (latitude) and easterly or westerly location (longitude)

Question 13

Vertical datum

Answer 13

A collection of spatially distributed points on the Earth with known heights either above or below mean sea level.

Question 14

How are HORIZONTAL DATUMS created?

Answer 14

Surveyors mark each of the positions identified on the Earth with a brass, bronze or aluminum disk monument.

Question 15

Elevation

Answer 15

Height above a fixed reference point, usually a refrence geoid (model of the Earth’s sea level).

Question 16

DTM

Answer 16

Digital Terrain Models

Question 17

Digital Elevation Model (DEM

Answer 17

Generic term used to describe a continuous digital elevation surface above sea level.

Question 18

Digital Surface Model (DSM)

Answer 18

Includes the elevation of all the features in the terrain above sea level such as bare ground, buildings, trees, powerlines

Question 19

DIgital Terrain Model (DTM)

Answer 19

Contains only elevations of the bare ground above sea level without any buildings, trees, etc.

Question 20

How is mean seal level determined near coastal areas?

Answer 20

Tide Gauge.

Question 21

How is mean sea level determined far away from the shore?

Answer 21

Determined by the shape of the geoid.

Question 22

Types of Coordinate Systems

Answer 22

Cartesian

Longitude & Latitude

Question 23

Cartesian Coordinate System

Answer 23

A system that assigns two coordinates (x and y) to every point on a flat surface.

Question 24

Latitude and Longitude System

Answer 24

Measured from a theoretical point at the center of the Earth

Question 25

Latitude

Answer 25

The angular distance measured North or South of the equator from a point at the centre of Earth.

A line connecting all points of the same latitudinal angle is a parallel. (Parallel)

Question 26

Longitude

Answer 26

The angular distance measured East or West of a prime meridian from a point at the centre of Earth. (Meridians)

Question 27

Distance in curvature of a degree of latitude is always equal to…

Answer 27

aprox. 111 km.

Question 28

Distance in curvature of a degree of longitude is…

Answer 28

Not constant.

Longitude converges at the poles.

Question 29

If you wanted to know the distance of one degree of longitude at 49° of latitude, what equation would you use?

Answer 29

1°longitude = 111° * cos (latitude)

Question 30

Where is the world’s largest globe located?

Answer 30

Yarmouth, Maine.

Question 31

If you wanted to know the distance of one degree of longitude at 49° of latitude, what equation would you use?

Answer 31

1°longitude = 111 * cos(latitude)

Question 32

Accurate 3D globe depicts true:

Answer 32

SHAPE
DIRECTION
DISTANCES
AREA

Question 33

GRATICULE

Answer 33

Consists of the spherical coordinate system based on lines of latitude and longitude.

Only apply to geographic coordinate systems.

Question 34

Great Circle

Answer 34

Any circle drawn on the globe with its center coinciding with the center of the globe, bisecting the earth into two equal halves.

Question 35

Only parallel that is a great circle

Answer 35

The equator

Question 36

The are of a great circle can be used to…

Answer 36

measure the shortest distance between any two points on the surface of the Earth.

Question 37

Small Circle

Answer 37

A circle on a globe’s surface that does not share Earth’s centre—for example, all parallels of latitude other than the equator.

Question 38

Map

Answer 38

A map is a representation of what is usually some portion of Earth’s surface as seen from above at a greatly reduced size.

Question 39

2-D maps distort one or more: (5)

Answer 39

DISTANCE

DIRECTION

AREA

SHAPE

PROXIMITY

Question 40

Disadvantages of a globe when using GIS (3)

Answer 40

• Very small scales (therefore little detail)
• Expensive to: create, update, transport, store.
• Only approximately one-half is viewable at a time.

Question 41

Map Projection

Answer 41

A systematic transformation of spherical Earth into a flat map.

Involves the transfer of distinctive global patterns of parallels of latitude and meridians of longitude onto a developable surface (e.g plane, cylinder, cone)

Question 42

Developable Surfaces (3)

Answer 42

Plane

Cylinder

Cone

Question 43

Tangent

Answer 43

The line of contact between the earth and the developable surface is called a tangent. Only one standard parallel.

Question 44

Secant

Answer 44

The developable surface touches the sphere at two points, creating two standard parallels.

Question 45

Tangents and Secants line characteristics

Answer 45

zero distortion along these lines.

As you move farther away from the tangent or secant lines, distortion increases.

Question 46

Characteristics normally considered in choosing a map projection are as follows:

Answer 46

Area

Shape

Scale

Direction

Special Characteristics

Question 47

Equal-Area Map (2)

Answer 47

A map projection is equal area if every part, as well as the whole, has the same area as the corresponding part on Earth, at the same reduced scale.

No flat map can be both equal-area and conformal.

Question 48

Conformal Map (4)

Answer 48

A map projection is conformal when at any point the scale is the same in every direction.

Meridians and parallels intersect at right angles.

Local shapes, and the shapes of very small areas and angles with very short sides are preserved.

The size of most areas, however, is distorted.

Question 49

Equidistant map

Answer 49

Show true distances only from the center of the projection or along a special set of lines.

No flat map can be both equidistant and equal area

Question 50

Types of projections (4)

Answer 50

Conformal

Equidistant

Equal-Area

Azimuthal

Question 51

Azimuthal map projections

Answer 51

Projections to a plane placed tangent to (just touching) the global at a point. Correctly represent angular relationships.

Question 52

Scale

Answer 52

A proportion used in determining the dimensional relationship of a representation to that it represents

Question 53

Rhumb Line

Answer 53

A line of constant compass direction, or constant bearing, that crosses successive meridians at the same angle; appears as a straight line only on the Mercator projection.

Question 54

Planar Projection

Answer 54

Standard ‘point’ at a pole. Shows great circle routes (shortest distance between two points on Earth) as straight lines.

Question 55

Standard Line/point

Answer 55

The line/point where the developable surface touches the reference globe, along which there is no distortion.

Question 56

Tangent to

Answer 56

The sphere touches the developable surface at a single point

Question 57

Secant to

Answer 57

The sphere intersects the developable surface

Question 58

Graticule

Answer 58

Spherical coordinate system based on lines of latitude and longitude

Question 59

A rhumb line is a straight line on…

Answer 59

A mercator projection

Question 60

Cylindrical projection example

Answer 60

Mercato