The purpose of the Global Positioning System (GPS) is to measure and display
the geographic coordinates of the location of the GPS receiver's antenna. If
your receiver is viewing a fair number of satellites, has stabilized, and is
operating properly, then the coordinates displayed on your GPS are the
coordinates of your location. If there's any difference, then something isn't
working the way it should.
GPS coordinates are latitude & longitude. IP address is an arbitrary 32 bit number that has no relation to physical location.
The only difference between a hurricane, a cyclone, and a typhoon is the location where the storm occurs.
The system of longitude and latitude is designed and used for the purpose of locating points on the surface of the Earth. These coordinates don't refer to celestial (sky) objects. There's a whole separate coordinate system applied to the sky, and there's no constant relationship between that one and the surface coordinates. In celestial coordinates, Cassiopeia occupies the range of Right Ascension between about 22Hr 57Min and 3Hr 37Min, and the range of declination between about 40.7° and 77.55°. Where those coordinates appear in your sky depends on the date and your location.
It is located in Central America between Mexico and Guatemala or at the geograohic coordinates of 17 degrees 15 minutes North and 88 degrees 45 minutes West.
The location with coordinates 51 degrees 40 minutes 55 seconds North and 2 degrees 22 minutes 40 seconds East is in the United Kingdom. It is approximately in the northern part of England or in Scotland, depending on the specific location within those coordinates.
Target location error
GPS coordinates are latitude & longitude. IP address is an arbitrary 32 bit number that has no relation to physical location.
In 2-dimensional space, it is the difference between their y-coordinates, in 3-dimensional space, it is the difference between their z-coordinates.
-- If they give you one set of 'x' and 'y' coordinates, then you have the location ofone point on the line. One point doesn't have a slope.-- If they give you two sets of 'x' and 'y' coordinates, then you have the locations oftwo points on the line. The slope of the straight line between two points is(the difference between the 'y' values) divided by (the difference between the 'x' values)
The distance between two points is Square root of [ (difference in their 'x' coordinates)2 + (difference in their 'y' coordinates)2 ]
The distance between any two points on a number line is the absolute value of the difference of the coordinates.
Simply divide the difference in the y-coordinates, by the difference in the x-coordinates.
It is simply the difference between their y coordinates.
It is simply the difference between their y coordinates.
Calculate the difference of the y-coordinates, and divide it by the difference of the x-coordinates. That is the slope.
In order to find the distance between two coordinates, you first need to find the difference between the x and y coordinates. In this case, the difference between the x coordinates is 3-(-2) = 5. The difference between the y coordinates is -4-5 = -9. To find the distance you add up the squares of these differences then find the square root. 52 = 25. -92 = 81. 25+81 = 106. Thus the distance is the square root of 106, or approximately 10.296
Please use the Pythagoran property: calculate the square root of ((difference in x-coordinates)2 + (difference in y-coordinates)2).