Answer #1:
Shooting two azimuths from different locations to find out where a target
object is by where the lines cross on a map. Alternatively, shooting azimuths
to two different objects to find out where YOU are.
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Answer #1.5 :
You are standing on one riverbank. There is a tree on the other riverbank.
You want to know the width of the river. People have tried stretching a
tape measure across it. None of them was ever seen again. You have to
come up with a better way to measure it. You will triangulate it.
-- Stand somewhere roughly opposite the tree. It doesn't have to be perfect.
Jam a bright red stick into the ground between your feet.
-- From there, with your tape measure, walk along the riverbank, mark exactly
100-ft from where you started, and set up your tripod there. Look through
your spotting scope and find the red stick in the ground on your side of the
river. Then measure the angle you have to turn the scope in order to spot the
tree on the other riverbank. Write down the angle in your notebook.
-- Go back to the red stick. Walk along the riverbank in the opposite direction,
mark exactly 100-ft that way, and set up your tripod there. Look through the
scope again and find the red stick in the ground on your side of the river. Then
measure the angle you have to turn the scope in order to spot the tree on the
other riverbank. Write that one down in your notebook too.
-- You have laid out a triangle. The three points that make the triangle are the
tree and the two points 100-ft in each direction from the red stick.
-- On your side of the river, you know the length of the triangle's 'base' ... it's 200 feet ...
and you know the angle of the triangle at each end of the base.
-- With that information and just a tiny bit of trigonometry, you can calculate the
width of the river at the place where the tree is ... it's the height (altitude) of the
triangle. You can do all the calculating indoors, with a pencil and paper, and it's
as accurate as your measurements of the 100-ft lengths and the two angles were.
Triangulation is used to compute the location of a point. For example, say you have three points on a piece of graph paper. You know the location of two points and the magnitude of the angles formed by the lines that join the points. Using math you can compute the location of the third point.
You need three liner measurements to locate anything in space, which the measurements share a vector. and from these measurements you can trianguate the location of anything.
Triangulation is a process of locating a certain point by measuring the distance between that point and other points. A compass is used for triangulation to measure angles.
trangulation is a way of determining something's location using the locations of other things.
Triangulation is used to determine the position of points on the Earth's surface, including pylons. Pylons use triangles in their construction because a triangle is a very strong and stable structure.
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Triangulation for accuracy. The method is called "triangulation" ... same method used by GPS units to coordinate the exact locations. Please see the related question for more information.
That statement is both true and false.Sure, triangulation is the preferred method, if it works. But for anythingmore distant than a few hundred of the nearest stars, triangulation fails,so we're forced to find other ways of measuring farther objects.And by the way ... triangulation is a method of measurement, not calculation.
need to find field site that has not been studied before. Triangulation can also refer to a way of finding an unknown location by knowing that it's between other given points. Ashford - importance of talking to several people about a particular topic
no....
Yes the Brooklyn bridge does use triangulation. If you want proof look at a really big picture or use this link below. Zoom in and you can see the triangulation at the sides.
Eiffel tower
Yes. GSM phones (phones sold by T-Mobile and AT&T) use triangulation.
Triangulation of the exact location of any given thing has become much easier with the development of satellite technology.
I have deca fish! I ran a triangulation
Answer #1:no=================Answer #2:Yes.Another answer: The primary use of triangulation may not be to measure the distance of stars, but the method which is used to measure the distance of close stars is primarily triangulation.
One example of an astronomer's use of trigonometry is determining the distance to a star by triangulation.
A triangulation data structure is a data structure designed to handle the representation of a two dimensional triangulation. Triangulation is the one who is responsible for the creation and removal of faces and vertices (memory management).
the find the epicenter the find the focus from the epicenter
Walter F. Reynolds has written: 'Triangulation in Maine' -- subject(s): Triangulation, Geodesy 'First-order triangulation in southeast Alaska' -- subject(s): Triangulation, Geodesy
Traverse survey can change to any shape which accommodate a great deal of different terrain while Triangulation survey is fixed to use of triangles