Locating Positions on Earth

Coordinate Systems

Earth scientists use the latitude-longitude

coordinate system to identify locations on Earth’s

surface. Latitudes and longitudes are measured in degrees (°) and minutes (‘). Each degree (°) is made up

of 60 minutes (‘). Sydney, Australia = 34°0’S, 151°0’E

Latitude

The equator (0°) marks the middle of the Earth –halfway between the North and South poles.

LatitudeThe latitude of any point on the Earth

is the angular measurement between the

location and the equator using the center of the Earth

as a focal point.

Latitude measurements above the equator are referenced with an “N”

for Northern Hemisphere.

Latitude measurements below the equator are referenced with an “S”

for Southern Hemisphere.

Measuring Latitude

Scientists may use the position of stars in the night sky to determine the latitude of their position on the Earth’s surface.

Polaris (The North Star) is seen by observers in the Northern Hemisphere. The star is positioned in the night sky

nearly directly over the North Pole.

Measuring Latitude

Pointer stars in the “Big Dipper” constellation allow the viewer to find Polaris .

A sextant is an instrument used by an observer to determine the angle

between Polaris and the horizon.

observer

Polaris

horizon

Longitude

The prime meridian (0°) marks the middle of the Earth –halfway between

the Eastern and Western Hemispheres.

LongitudeThe meridian that

passes through Greenwich, England

has been designated as the prime meridian (0°).

The longitude of any location on the Earth’s

surface is the number of degrees between the

location and that of the prime meridian.

Longitudes increase east and west from the prime

meridian to the International Date Line (180°)

Longitude measurements

east of the prime meridian are

referenced with an “E” for Eastern

Hemisphere.

Longitude measurements

west of the prime meridian are referenced with a “W” for

Western Hemisphere.

Eastern Hemisphere

Western Hemisphere

Measuring Longitude

The longitude of a position on Earth’s surface can be determined if one studies the rate of Earth’s rotation

over time.

Measuring Longitude

Scientists will use GMT = Greenwich Mean Time as a means by which to gauge the

local time and location of longitude for an

observer.

For example, if the sun has reached its

highest altitude in the sky (local noon – 12 pm) at Greenwich, it will be 11am at 15° E

and 1pm 15°W.

0°12 pm

15°E1 pm

15°W11 am

Remember*** The Earth rotates from

west to east at a rate of 15° per hour.

Measuring Longitude – Sample Problem “If it 6 pm at Greenwich England, at

which location would it be 10 pm?”

B

CA

D