0 - PBworks
... the North Pole to the South Pole through Greenwich, England. It is called the Prime Meridian and is Zero Degrees. All other meridians are measured East or West of it. 180 degrees on the other side of the world the International Date Line completes the circle around the Earth. Lines of Longitude divi ...
... the North Pole to the South Pole through Greenwich, England. It is called the Prime Meridian and is Zero Degrees. All other meridians are measured East or West of it. 180 degrees on the other side of the world the International Date Line completes the circle around the Earth. Lines of Longitude divi ...
LATITUDE AND LONGITUDE MEGA PACKET
... the time-exposure photograph shown below. The photograph was taken by aiming a camera at a portion of the night sky above a New York State location and leaving the camera's shutter open for a period of time to record star trails. ...
... the time-exposure photograph shown below. The photograph was taken by aiming a camera at a portion of the night sky above a New York State location and leaving the camera's shutter open for a period of time to record star trails. ...
Maps, Projections, Location
... Each degree is subdivided into 60 minutes. So each minute represents 1.1 statute (land) miles or 1 nautical mile. Each minute is subdivided into 60 seconds. So each second represents 101 feet. The Denton County Courthouse is ...
... Each degree is subdivided into 60 minutes. So each minute represents 1.1 statute (land) miles or 1 nautical mile. Each minute is subdivided into 60 seconds. So each second represents 101 feet. The Denton County Courthouse is ...
GeoMapSkills - Vancouver School Board
... Place: the distinctive and distinguishing physical and human characteristics of locales Sample terms: Physical and cultural landscapes, sense of place Skills: Description, compare and contrast Questions: What does ____ look like? Why? How is it different from ____? ...
... Place: the distinctive and distinguishing physical and human characteristics of locales Sample terms: Physical and cultural landscapes, sense of place Skills: Description, compare and contrast Questions: What does ____ look like? Why? How is it different from ____? ...
THE EARTH. MERIDIANS AND PARALLELS
... These circles of latitude (excluding the equator) mark the divisions between the five principal geographical zones. ...
... These circles of latitude (excluding the equator) mark the divisions between the five principal geographical zones. ...
CHAPTER 1: THE STUDY OF GEOGRAPHY
... • Parallels north of the Equator marked with an “___” • Parallels south of the Equator marked with an “___” • 0° = latitude line at the Equator • 90°N = latitude line at the _______Pole • 90°S = latitude line at the _______ Pole ...
... • Parallels north of the Equator marked with an “___” • Parallels south of the Equator marked with an “___” • 0° = latitude line at the Equator • 90°N = latitude line at the _______Pole • 90°S = latitude line at the _______ Pole ...
Teacher Guide - Sally Ride EarthKAM
... Latitude measures how far north or south a point lies from the equator. The equator is at 0 degrees (0°) latitude, and it divides Earth into its northern and southern hemispheres. It is the starting point for measuring distances in degrees north or south of the equator. Values for latitude range fro ...
... Latitude measures how far north or south a point lies from the equator. The equator is at 0 degrees (0°) latitude, and it divides Earth into its northern and southern hemispheres. It is the starting point for measuring distances in degrees north or south of the equator. Values for latitude range fro ...
5 Themes of Geography - Positively Learning with Mrs. Bales
... The line of 0 degrees longitude is called the _______. Longitude lines give directions ___ & ___ of the prime meridian. There are ____ degrees of longitude on each side of the prime meridian. Longitude lines are not ____ like latitude lines. ...
... The line of 0 degrees longitude is called the _______. Longitude lines give directions ___ & ___ of the prime meridian. There are ____ degrees of longitude on each side of the prime meridian. Longitude lines are not ____ like latitude lines. ...
Color Chap 5.cdr
... Figure 5. 23 The seasons are caused by the tilt of the Earth’s rotational axis with respect to the ecliptic plane. For each position shown, the darker line is the celestial equator and the lighter line is the ecliptic, as they would be seen on the celestial sphere. In June, the northern hemisphere i ...
... Figure 5. 23 The seasons are caused by the tilt of the Earth’s rotational axis with respect to the ecliptic plane. For each position shown, the darker line is the celestial equator and the lighter line is the ecliptic, as they would be seen on the celestial sphere. In June, the northern hemisphere i ...
5 Themes of Geography PowerPoint Presentation
... …is the place where something is in comparison to something else. ‡ A good example of relative location is if you were to give directions to somebody and you used terms such as "it is across the street from the Middle School" or "it is to the left of the Post Office.“ ...
... …is the place where something is in comparison to something else. ‡ A good example of relative location is if you were to give directions to somebody and you used terms such as "it is across the street from the Middle School" or "it is to the left of the Post Office.“ ...
5 Themes of Geography
... • The Prime Meridian is found in Greenwich, England. • The Prime Meridian is 0 degrees Longitude. • Lines of Longitude are used to locate places and measure distances East or West of the Prime Meridian. ...
... • The Prime Meridian is found in Greenwich, England. • The Prime Meridian is 0 degrees Longitude. • Lines of Longitude are used to locate places and measure distances East or West of the Prime Meridian. ...
Location of Atlantic Canada PowerPoint
... Location We often ask questions such as “Where did it happen?” and “How do you get there?” We can answer with a relative location or an absolute location ...
... Location We often ask questions such as “Where did it happen?” and “How do you get there?” We can answer with a relative location or an absolute location ...
What city is near 6 degrees north latitude and 10 degrees west
... 1. What city is near 6 degrees north latitude and 10 degrees west longitude? Monrovia 2. What is the longitude and latitude of Capetown, South Africa? 34 degrees South, 18 degrees East 3. In which two hemispheres would 40 degrees north latitude and 20 degrees east longitude be? Northern and Eastern ...
... 1. What city is near 6 degrees north latitude and 10 degrees west longitude? Monrovia 2. What is the longitude and latitude of Capetown, South Africa? 34 degrees South, 18 degrees East 3. In which two hemispheres would 40 degrees north latitude and 20 degrees east longitude be? Northern and Eastern ...
Chapter 1 Homework Assignments 2015
... 4. New York City’s ________ is approximately 100 miles northeast of Philadelphia and 100 miles southwest of Boston. a. location b. site c. situation d. toponym e. jurisidiction ...
... 4. New York City’s ________ is approximately 100 miles northeast of Philadelphia and 100 miles southwest of Boston. a. location b. site c. situation d. toponym e. jurisidiction ...
geo2200_1midterm_stu..
... Latitude increases from the equator to the north pole or south pole o These are the two fixed reference points for the Earth Is strongly related to yearly patterns, like sunlight and seasons Lines are called parallels Longitude – measure of (angular) distance east or west of a point on the Earth ...
... Latitude increases from the equator to the north pole or south pole o These are the two fixed reference points for the Earth Is strongly related to yearly patterns, like sunlight and seasons Lines are called parallels Longitude – measure of (angular) distance east or west of a point on the Earth ...
Five Themes of Geography
... • Helps to understand how and why people, ideas, products, and information travel from one place to another • Movement mainly occurs by trade, computers, telephones, satellite, letter, trains, planes, automobiles and animals ...
... • Helps to understand how and why people, ideas, products, and information travel from one place to another • Movement mainly occurs by trade, computers, telephones, satellite, letter, trains, planes, automobiles and animals ...
5 Themes of Geography Study Guide
... You should use this study guide as well as notes from class to help you prepare for the quiz. Spend some time studying over the weekend (half an hour each day) and you will do just fine! 1. What are the five themes of geography? LOCATION PLACE HUMAN-ENVIRONMENT INTERACTION MOVEMENT REGIONS 2. What i ...
... You should use this study guide as well as notes from class to help you prepare for the quiz. Spend some time studying over the weekend (half an hour each day) and you will do just fine! 1. What are the five themes of geography? LOCATION PLACE HUMAN-ENVIRONMENT INTERACTION MOVEMENT REGIONS 2. What i ...
Travel Destinations - pambrowncorninghighschool
... Greenwich, England near London Any place can be identified by its latitude and longitude example: 40 degrees north latitude, 116 degrees east longitude identifies Beijing, China Degrees are further subdivided into minutes and seconds to get more accurate, and can identify a location to within a ...
... Greenwich, England near London Any place can be identified by its latitude and longitude example: 40 degrees north latitude, 116 degrees east longitude identifies Beijing, China Degrees are further subdivided into minutes and seconds to get more accurate, and can identify a location to within a ...
Travel Destinations
... TIME: related to longitudinal location, _________________time zones, based on Greenwich, England time and the __________________________ Date Line (180 degrees of _______________________ Grid lines on a map are the main tool to find a ____________________ Activity: look at a map and a globe, loc ...
... TIME: related to longitudinal location, _________________time zones, based on Greenwich, England time and the __________________________ Date Line (180 degrees of _______________________ Grid lines on a map are the main tool to find a ____________________ Activity: look at a map and a globe, loc ...
Terrestrial Coordinate System/Chart Projections and Numbering
... Chart and Publication Correction System • Corrections must be made by hand to the affected chart or publication. • Fortunately, not all changes are made. The corrections are kept on file, using a correction card for each chart. • Changes are then entered on a chart when a ship is scheduled to opera ...
... Chart and Publication Correction System • Corrections must be made by hand to the affected chart or publication. • Fortunately, not all changes are made. The corrections are kept on file, using a correction card for each chart. • Changes are then entered on a chart when a ship is scheduled to opera ...
Celestial navigation
Celestial navigation, also known as astronavigation, is the ancient art and science of position fixing that enables a navigator to transition through a space without having to rely on estimated calculations, or dead reckoning, to know their position. Celestial navigation uses ""sights,"" or angular measurements taken between a celestial body (the sun, the moon, a planet or a star) and the visible horizon. The sun is most commonly used, but navigators can also use the moon, a planet or one of 57 navigational stars whose coordinates are tabulated in the Nautical Almanac and Air Almanacs.Celestial navigation is the use of angular measurements (sights) between celestial bodies and the visible horizon to locate one's position on the globe, on land as well as at sea. At a given time, any celestial body is located directly over one point on the Earth's surface. The latitude and longitude of that point is known as the celestial body’s geographic position (GP), the location of which can be determined from tables in the Nautical or Air Almanac for that year.The measured angle between the celestial body and the visible horizon is directly related to the distance between the celestial body's GP and the observer's position. After some computations, referred to as sight reduction, this measurement is used to plot a line of position (LOP) on a navigational chart or plotting work sheet, the observer's position being somewhere on that line. (The LOP is actually a short segment of a very large circle on the earth which surrounds the GP of the observed celestial body. An observer located anywhere on the circumference of this circle on the earth, measuring the angle of the same celestial body above the horizon at that instant of time, would observe that body to be at the same angle above the horizon.) Sights on two celestial bodies give two such lines on the chart, intersecting at the observer's position (actually, the two circles would result in two points of intersection arising from sights on two stars described above, but one can be discarded since it will be far from the estimated position—see the figure at ""example"" below). Most navigators will use sights of three to five stars, if they're available, since that will result in only one common intersection and minimize the chance for error. That premise is the basis for the most commonly used method of celestial navigation, and is referred to as the ""Altitude-Intercept Method.""There are several other methods of celestial navigation which will also provide position finding using sextant observations, such as the ""Noon Sight"", and the more archaic Lunar Distance method. Joshua Slocum used the Lunar Distance method during the first ever recorded single-handed circumnavigation of the world. Unlike the Altitude-Intercept Method, the noon sight and lunar distance methods do not require accurate knowledge of time. The altitude-intercept method of celestial navigation requires that the observer know exact Greenwich Mean Time (GMT) at the moment of his observation of the celestial body, to the second—since every four seconds that the time source (commonly a chronometer or in aircraft, an accurate ""hack watch"") is in error, the position will be off by approximately one nautical mile.