There are several methods.
You need a reference point (the origin. For an n-dimensional space you will need a set of n axes and n measures which define the position with regard to origin. The axes need not be orthogonal (at right angles) as can be seen from isometric graph paper. The measures need not all be distances, they can comprise one distance and the remainder being angles.
Alternatively, you can have many reference points and directions from these reference points to the position. This is the system used by early cartographers for making maps before satellite mapping became possible. The reference points were called triangulation points, and as they moved across the region being mapped, they identified new triangulation points (whose positions they had worked out) so that they had these reference points reasonably near the position to be identified.
Yet another method was to have a set of reference points and distances from these reference points to the position. This is the system used for GPS where the reference points are 3 or more satellites and the measures are distances to the position. Actually, the measures are of time but given the speed of light in the Earth's atmosphere, converting time to distance is trivial. A lot of trigonometry follows.
dual space W* of W can naturally identified with linear functionals
They can go in either position, as long as they are clearly identified.
The simplest answer, probably, is "A point".
it is impossible to check the exact height or width of space itself sorry if that didn't help
Vectors are identified by magnitude, or the length of the line, and direction, represented by the arrowhead pointing toward the terminal point. The position vector has an initial point at (0,0) and is identified by its terminal point ⟨a,b⟩.
how are numrious section identified as to their position on the major view
A point on the earth is identified by its latitudinal and longitudinal position.
A single location in space refers to a specific point or coordinates in the three-dimensional universe. It can be described using measurements such as latitude, longitude, and altitude or in terms of its position relative to other objects or landmarks. This concept is fundamental in astronomy, physics, and geography for pinpointing the exact position of objects or events in space.
a point
Promethium was identified in two stars.
a point
Point!
a point
is it called a point
dual space W* of W can naturally identified with linear functionals
Yes, it is.
a pintle position sensor tell the engine computer what the exact position of the egr valve is