1. PSC 121 Prince George’s Community College Barbara Gage Latitude and Longitude

2. PSC 121 Prince George’s Community College Barbara Gage Coordinate Systems When you are locating a point on a flat surface you can use Cartesian coordinates of x and y. When you are locating a point on a flat surface you can use Cartesian coordinates of x and y. The point 2, 3 is plotted on the graph. The point 2, 3 is plotted on the graph. x-axis y-axis

3. PSC 121 Prince George’s Community College Barbara Gage Coordinate Systems On a body such as the Earth or our moon, we can pinpoint the location of any city or landmark using two values, the latitude and longitude. These are polar coordinates. On a body such as the Earth or our moon, we can pinpoint the location of any city or landmark using two values, the latitude and longitude. These are polar coordinates.

4. PSC 121 Prince George’s Community College Barbara Gage On the Earth there are two additional sets of reference points. On the Earth there are two additional sets of reference points. The Equator divides the Earth into the Northern Hemisphere and the Southern Hemisphere. The Equator divides the Earth into the Northern Hemisphere and the Southern Hemisphere. http://nationalatlas.gov/articles/mapping/IMAGES/latlong2.gif

5. PSC 121 Prince George’s Community College Barbara Gage The Prime Meridian divides the Earth into the Western Hemisphere and the Eastern Hemisphere. The Prime Meridian divides the Earth into the Western Hemisphere and the Eastern Hemisphere. http://www.arcticice.org/images/long.gif

6. PSC 121 Prince George’s Community College Barbara Gage Latitude Latitude is defined as the elevation of the location point above (or below) the equator. Latitude is defined as the elevation of the location point above (or below) the equator. The measurement is expressed in degrees, minutes, and seconds. The measurement is expressed in degrees, minutes, and seconds. The equator is at 0° and the poles are at 90°. The equator is at 0° and the poles are at 90°. http://webhelp.esri.com/arcgisdesktop/9.2/published_images/LatLong%20from%20Globe%20Center.gif

7. PSC 121 Prince George’s Community College Barbara Gage Latitude If the location point is north of the equator an N or + is added to the degrees. If the location point is north of the equator an N or + is added to the degrees. If the point is to the south of the equator an S or – is added to the value. If the point is to the south of the equator an S or – is added to the value. 52°N or +52° 24°S or -24°

8. PSC 121 Prince George’s Community College Barbara Gage Latitude On the Earth we designate lines of equal latitude as parallels. On the Earth we designate lines of equal latitude as parallels. http://www.lakelandsd.com/tutorial/latitude2.jpg

9. PSC 121 Prince George’s Community College Barbara Gage Longitude Longitude is defined as the measurement of the location point east or west of the Prime Meridian Longitude is defined as the measurement of the location point east or west of the Prime Meridian The value is also expressed in degrees, minutes, and seconds. The value is also expressed in degrees, minutes, and seconds. Note: There are 60 minutes in a degree and 60 seconds in a minute.

10. PSC 121 Prince George’s Community College Barbara Gage Longitude If the point is located to the west of the Prime Meridian we add a W to the value. If the point is located to the west of the Prime Meridian we add a W to the value. If the point is located east of the Prime Meridian we add an E after the value If the point is located east of the Prime Meridian we add an E after the value 30°W 80°E

11. PSC 121 Prince George’s Community College Barbara Gage Longitude On the Earth we designate lines of equal longitude as meridians. On the Earth we designate lines of equal longitude as meridians. The Prime Meridian has a value of 0° and no E or W. The longitude values increase up to 180° in both directions. The Prime Meridian has a value of 0° and no E or W. The longitude values increase up to 180° in both directions. http://www.lakelandsd.com/tutorial/latitude2.jpg

12. PSC 121 Prince George’s Community College Barbara Gage Longitude and Time Local noon poses a problem for travelers because it is noon at different times in different locations. That means that timetables are useless. Local noon poses a problem for travelers because it is noon at different times in different locations. That means that timetables are useless. To solve this problem time has been gauged from the Prime Meridian also called the Greenwich Meridian (since it passes through the Royal Observatory in Greenwich, England). To solve this problem time has been gauged from the Prime Meridian also called the Greenwich Meridian (since it passes through the Royal Observatory in Greenwich, England).

13. PSC 121 Prince George’s Community College Barbara Gage Longitude and Time If you place meridians 15° apart starting with the Prime Meridian, you will divide the Earth into 24 zones. These correspond to the 24 hours in a day. If you place meridians 15° apart starting with the Prime Meridian, you will divide the Earth into 24 zones. These correspond to the 24 hours in a day. http://www.mapsofworld.com/time-zone-map/maps/world-time-zone.jpg

14. PSC 121 Prince George’s Community College Barbara Gage Longitude and Time As you travel around the world to the east, you gain an hour in time for each zone you cross. If you travel to the west you lose an hour. As you travel around the world to the east, you gain an hour in time for each zone you cross. If you travel to the west you lose an hour. http://www.astro.ufl.edu/~oliver/ast3722/lectures/CoordsNtime/timezon2.gif

15. PSC 121 Prince George’s Community College Barbara Gage But… If you traveled around the world to the east fast enough you would be a day older in a short time! If you traveled around the world to the east fast enough you would be a day older in a short time! If you traveled west you could go back in the past! If you traveled west you could go back in the past! To solve this problem it was agreed that the 180° meridian would signal the change of date point. To solve this problem it was agreed that the 180° meridian would signal the change of date point. Travel east and the date goes back one day; travel west and you advance a day when crossing this meridian. Travel east and the date goes back one day; travel west and you advance a day when crossing this meridian.

16. PSC 121 Prince George’s Community College Barbara Gage But… To keep all of a country in the same time zone, the International Date Line does not follow the 180° meridian exactly. To keep all of a country in the same time zone, the International Date Line does not follow the 180° meridian exactly. Other time zones make the same accommodations for country or state boundaries. Other time zones make the same accommodations for country or state boundaries.

17. PSC 121 Prince George’s Community College Barbara Gage