La Tierra y las Coordenadas Geográficas - Navegación VFR

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Today we will talk about the earth and the geographical coordinates, but before we begin

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to see the concepts of VFR navigation we must understand and learn the basic

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concepts of the place where we are going to navigate that is, the earth, the earth is the third planet of

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the solar system counted by from the sun and its shape is almost spherical since it has a

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polar circumference of 40.009 kilometers and an equatorial circumference

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of 4.075 kilometers, which means that the earth is flattened at its poles and elongated at the equator

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this particular shape is due the centrifugal force that is produced

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when the earth rotates resulting in a shape called an oblate spheroid

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the earth has two main movements, the first is the rotational movement since

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the earth rotates on its own axis and takes about 24 hours to complete

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one revolution, the earth's axis of rotation is between its north pole and its south pole

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now apart from this the side to which the earth rotates is known as EAST while

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the opposite side is known as WEST, the other movement of the earth is the translational movement

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the earth moves around the sun in an elliptical orbit that lasts approximately

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365 days and the trajectory that the earth follows during this orbit is known as ecliptic

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something that we must emphasize is that the earth's axis of rotation is inclined

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with this ecliptic orbital plane around the sun, its inclination is approximately 23,5°

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which is enough to give room for phenomena such as the seasons throughout

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the year or other phenomena such as the solstice or the equinox, this occurs because the

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difference in sunlight that a part of the earth receives during the year is changing

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which also leads to changes of temperature and pressure and a general change in the climate

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having seen these basic data on the earth we can define what the cardinal

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points are, these are used for orientation and express directions and we have four

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main cardinal points: north, south, east and west, however these four main points can

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lead to new ones such as the northeast, the southeast, the southwest or the northwest,

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which as we can see are combinations of the four original points, and although these are

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the best known and most used points in navigation, these can also be further divided,

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for example the point between the north and the northeast is known as

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northnortheast while the point between the northeast and the east is known as the

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eastnortheast and so on, thus giving greater precision when expressing

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a relative position. as an additional note so as not to have to say the complete words

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in aviation, the international phonetic alphabet can be used to name the cardinal points

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using the letters november, sierra, whiskey or echo now another thing that we must emphasize

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is that unless a universal reference system is used, each person will express

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the cardinal points from their point of view, let's see an example, let's suppose that we have these

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two positions a red circle and a green circle on the surface of the earth Each of these

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points will have its own cardinal points if, for example, we ask someone who is

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in the red circle where the green circle is, they will tell us that it is to the November Echo or northeast,

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while if we ask a person In the green circle where the red circle is,

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they will tell us that it is to the SIERRA WHISKEY , that is, to the southwest, in other words the

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opposite cardinal point, and as we already said, unless a general

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reference system is established each person will establish its relative position with respect to its point of view,

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which would be more of a system to determine directions rather than to determine positions

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in order to see how an exact position is actually determined on the earth

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we must see some additional concepts, let's see the terrestrial hemispheres, the earth

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is divided into four main hemispheres we have the eastern and western hemispheres as well

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as the northern and southern hemispheres the eastern and western hemispheres are divided into starting from

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the greenwich meridian which is a reference line that goes from pole to pole passing through

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the city of greenwich in england while on the other hand the northern and southern hemispheres are

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divided from the equator line which is a line perpendicular to the axis of rotation of

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the earth and that it is at the same distance from both poles, having seen this, let's see

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how we can determine a certain position. To determine a position on a plane, that

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is , on a two-dimensional surface, we can use a Cartesian plane which,

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as we will remember, uses two axes the Y axis and the X axis as well as a scale of units

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if for example We want to express the position of this red point we would say that it is

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in a position X4, Y3 because we simply count the units on each axis and put them there this

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way of expressing a position is known as Cartesian coordinates and actually

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using this system we can determine and express any position that is

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within the scale as a function of the units for each axis, now to express a

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position on the earth we use a quite similar reference system that is known

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as the geographic coordinates system. This one as well as the Cartesian plane uses two axes

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to determine the units in which a position is found, however these axes

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are not known as Y and X and we will see next how this model adapts to the

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earth. this geographic coordinate system is a system of reference that allows expressing

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any position in terms of latitude and longitude. the latitude and longitude are equivalent

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to the units that we had seen in the Cartesian plane, now something we must say is that

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the geographic coordinate system assumes that the earth is a perfect sphere, so

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we cannot use units as flat as we had used them in the Cartesian plane

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but in this case the latitude and longitude are expressed in terms of angles measured from

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the center of the earth using the sexagesimal degree system, which is a system

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that we will see later how it is used. in other words it is the system of degrees, minutes

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and seconds of arc. so far, the important thing is to know that latitude is used to express

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how far north or how far south a point is, while longitude is used

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to express how far east or how far west a point is, that is, the latitude

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would be like the units of the Y axis while the longitude would be like the units of the X axis,

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let's go now to see which ones are the axes used in the geographic coordinate system

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these reference axes are the equator line and the greenwich meridian coincidentally

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the same ones that divide the four terrestrial hemispheres. in order to give an accurate definition

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of these two reference axes we must see what the definitions of great circle and

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small circle are. A great circle is a plane in a sphere that, passing through its center, divides it

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into two equal parts while a small circle is a plane in a sphere that divides it

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into two unequal parts as we can Observe in this image, in other words, a great circle

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would be a circumference that, passing through the surface of the earth, divides it into two

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exactly equal hemispheres, while a small circle would be any

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circumference that can divide the earth into two unequal parts as It can be seen in

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this example, now having seen this, let's see now if the definition of the equator line

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It is a great circle perpendicular to the axis of rotation of the earth which divides it into

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the northern and southern hemispheres as we had seen previously, on the other hand the

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greenwich meridian also known as 0 meridian is an arc of a great circle between

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the north pole and the south pole that passes through the city of greenwich in england, now we can

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see that here we say that it is an arc of the great circle since a great circle totally

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surrounds the earth while the greenwich meridian only goes from the north pole to the South pole

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so it is half of a great circle and that is why we say that it is an arc of a great circle. now

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having correctly defined these two reference axes we then have something very similar to a

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Cartesian plane where we have the Y axis which is now the greenwich meridian and the X axis, which is the

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equator, however, due to the size of the earth, it is necessary to use

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secondary reference lines that are known as meridians and parallels, let's see what these are

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A meridian is an arc of a great circle between the north pole and the south pole, these meridians

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are measured in degrees with respect to the 0 meridian as we can see in the image and are used as a

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reference To determine the longitude of a position, that is, how far east or how far

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west a point is, on the other hand, the parallels are small circles parallel to the

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equator line as we can see in this image and are measured in degrees with respect to the

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equator these are used as a reference to determine the latitude of a position, that is to say how far

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north or how far south that point is. now although we have already seen roughly what

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latitude is and what longitude is, we are going to define them correctly. The latitude is the distance

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between the equator and a point on the earth's surface measured in degrees, minutes

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and seconds of arc, we say that it is measured in degrees since we literally measure the angle

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between the center of the earth and the zero point, which would be the line of the equator, let's see a

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slightly more graphic example, here we can see that the latitude is equal to 0 degrees at the equator since it is measured

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from the center of the earth towards the equator line and from there we begin to measure

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the distance upwards in terms of angles until we reach 90 degrees at the poles, that is to say that

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the latitude can be from 0 to 90 degrees either north or south of the equator, now Longitude has

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a fairly similar definition Longitude is the distance between the 0 meridian and a

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point on the earth's surface measured in degrees, minutes and seconds of arc, again we take

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as a reference the center of the earth and the Greenwich meridian to be able to measure this value by

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observing the graphic example we can see that then the longitude is equal to 0 in the

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greenwich meridian and begins to increase in degrees until it reaches 180 degrees on the opposite side of the

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0 meridian, so the longitude can be from 0 to 180 degrees either east or

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west of the greenwich meridian in this image this does not seem very obvious, however here we can

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see how the 180 degrees are distributed to the east and west.. and in this image from

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a higher perspective, now here in this image we can see all the concepts that we have just

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seen about the geographical coordinates and how the position on the earth is determined having

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then seen all this theory we can go on to practice here then we are going to draw the two

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axes the 0 meridian and the equator, as an additional note in this map they are not correctly

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represented however it is enough to understand the concept suppose we want to

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determine the position of this red circle the first thing is to determine the latitude that is how

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far north or how far south it is. here we can read on the scale that is 40

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degrees north while the longitude, that is, how far east or how far west it is

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we can see that the scale indicates 100 degrees west therefore the

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coordinates of this point would be 40 degrees north 100 degrees west It is always important

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when expressing a coordinate that the latitude is given first and then the longitude, and as we can

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see in this way we can determine any other position on this map for example this

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other point would be 20 degrees north 40 degrees east while this other point would be 60 degrees

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south 40 degrees west Since we have seen how these geographical coordinates are used up to

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now, we have only seen how they are applied with degrees but previously we had said

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that degrees, minutes and seconds are used, which is known as the sexagesimal system and that is,

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degrees are not enough to determine a precise position because it gives a large amount of error

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therefore we must use even smaller scales to be able to increase the precision and it is that each

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degree is divided into 60 minutes of arc, so between degree and degree there are 60 minutes

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now in turn each minute can be divided into 60 seconds of arc so that between minute and

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minute there are 60 seconds of arc. We can see then that the scale becomes

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smaller and smaller which in turn makes it more precise, let's see an example of how these three

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combined units are used, here we have a Cartesian plane that is on a really small scale

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where the minutes and seconds of arc can be appreciated

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let's say we want to express the position of this red point first then we are going to observe the

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latitude that is to say how far north or how far south it is here we can then see that it is at

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51 degrees to the north 0 minutes and 15 seconds then we observe the longitude that is to say how far east or

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how far west it is in this case it is at 11 degrees 1 minute and 30 seconds

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east as you can see in this way we combine the degrees, the minutes and the seconds, giving

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a much more precise position, let's see this other example, suppose then this red point

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it would be 51 degrees 2 minutes 0 seconds north and 11 degrees 1 minute and 0 seconds east

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now seen this, let's see how we can determine if we are north south east or west

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only by observing the scale let's see this example suppose we want to determine

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this position as we can see it is not specified if we are north south east west only

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the degrees of the scale are given. first then we are going to determine the latitude as

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we can observe the line 0 that is to say 0 degrees corresponds to the equator is below the

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point A, so that means we are north of the equator and we can observe on the scale that it

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is one degree is to say that we are one degree to the north, let's now see the scale about

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the longitude in this case we do not have a 0 to refer to. However, we can see

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that the scale is decreasing to the right, that is to say that 0 degrees of longitude is to the

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right of the scale, which means that we are to the left of that meridian of Greenwich, which would

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mean that we are in the western hemisphere, so we are 1 degree north and

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74 degrees west, we can see position B that is one degree south and 73 degrees 30 minutes

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west. we say 30 minutes since it is between 73 and 74 degrees and the midpoint as we know

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between both degrees there are 60 minutes, then 30 minutes, point C would be determined by the

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coordinates 0 degrees 30 minutes south 72 degrees 30 minutes west let's see a more concrete example with

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a map let's see then that we want to determine the position of Germania in terms of latitude

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German is slightly below 28 degrees 30 minutes that is to say that we are

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at 28 degrees 29 minutes to the north we say north since if we observe the scale the

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0 would be below us that is to say that we are north of the equator, on the other hand

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in the longitude we can see that we are a little beyond 74 degrees 20 minutes west

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with which we could say that we are 74 degrees 22 minutes west again we say west

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since the scale is increasing towards the left which indicates that we are to the west

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of the greenwich meridian now if we want to determine the position for example of the

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Esmeralda population we would say that it is at 27 degrees 45 minutes north and 73 degrees 0 minutes to the west

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and finally for example miraflores would be at a latitude of 29 degrees 20 minutes north and a

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longitude of 73 degrees 35 minutes west now this coordinate system that we have been using

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and that has such precise and well-defined reference systems is known as the WGS-84 system

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world geodetic system of 1984 this is the world geographic coordinate system

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used in cartography, geology, navigation etc. that allows all measurements in

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any part of the world to be the same since everyone uses the same reference point

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I hope this video has helped you to understand what geographic coordinates are

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as well as refresh some basic information about the earth subscribe for more content about the

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aeronautical world and leave in the comments what other types of topics you would like me to cover in the videos