nothing
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.
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.
I think you mean "Focus": the Epicentre is the point of maximum movement on the surface above, and that's usually obvious. The focus is located by triangulation and velocity calculations from seismograph data.
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.
Triangulation.
Triangulation can be defined as a kind of cross-checking of information and conclusions in research, brought about by the use of multiple procedures or sources.Forms of triangulationmethod triangulationdata triangulationresearch triangulationtheory triangulationTriangulation is basically checking if the study is credible (trustworthy) or not.
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).
Walter F. Reynolds has written: 'Triangulation in Maine' -- subject(s): Triangulation, Geodesy 'First-order triangulation in southeast Alaska' -- subject(s): Triangulation, Geodesy
Triangulation systems can be classified based on their geometry as either linear or angular. In a linear system, distances between known points are measured to calculate the position of an unknown point. In an angular system, angles between known points are measured to determine the position of an unknown point. Both methods rely on the principles of trigonometry to accurately locate points in space.
Triangulation.
Where do you see triangulation used in this structure. Explain how triangulation helps to make head frame structure stronger
A Laser Triangulation Sensor is a device for measuring heights. Basically, you point a laser beam directly at a surface, is reflected and falls on the sensor, through the lens. Depending on the beams position on the sensor, the angle towards the surface is calculated.
no....
nothing
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.
Photogrammetry radial triangulation is the purpose to make the ground control. Many phase of it are depends upon ground control for suitable results. Radial triangulation based upon lines radiating from the center of each of two overlapping photographs to certain objects appearing on each photograph Radial triangulation is a traditional graphical technique for extending horizontal control and compiling plan metric maps from aerial photographs. Numerical methods have been used in conjunction with electronic computers to perform this operation. The photogrammetric principle in radial triangulation that relief displacement, radiates from principal point on a truly vertical photographs means that angle measured about that point in plane of the photographs are true horizontal angle regardless of the elevation of point involved. Radial triangulation consists basically of successive resection and intersection so it is necessary to have photographic overlap greater than 50 per cent. In addition, images of at least two and preferably more horizontal control point must appear somewhere within the assembly of photographs. All available horizontal control in the project area should be plotted on a map sheet and the radial triangulation fitted to it. This adjustment is difficult with tracing paper templates but conveniently done with slotted templates or metal arm, an important factor when extensive work is scheduled.