Ordered pairs are represented as functions themselves or they compose a function. They are written as (x, y) as coordinates for their respective function. For example, for the function y=2x, it contains the ordered pairs (0, 0), (1, 2), and so on by plugging in the coordinates for x and y. Where x=0, y=0 because y=2(0). Where x=1, y=2 because y=2(1).
To graph ordered pairs, you must be given their respective function(s). From there, it is possible to make a chart of the x and y coordinates in that function, and plot them accordingly.
Coordinate planes
The Ordered Pairs are 1x20, 2x10, and 5x4.
the easiest way to do this is get a picture of a turtle. Place it over a sheet of graphing paper. place a point at every point that you can. Move the picture- you don't need it anymore. Connect the dots.
They are the x and y axes on the Cartesian plane that intersect each at right angles at the point of origin which is (0, 0)
-1 is a one-dimensional entity. It can have no equivalent in ordered pairs.
Ordered pairs are used in graphing, with the x axis first in the pair. Example: (5,7) (x,y)
Coordinate planes
you know, that was also my problem, that was our project in elective math :|
when graphing a line you simply plot the points based on the ordered pairs and connect the dots; there you have a line. An inequality graph refers to the shaded region of the coordinate plane that does not coincide with the line, hence the term, inequality.
The Ordered Pairs are 1x20, 2x10, and 5x4.
It is not possible to answer the question with no information about which ordered pairs!
the easiest way to do this is get a picture of a turtle. Place it over a sheet of graphing paper. place a point at every point that you can. Move the picture- you don't need it anymore. Connect the dots.
They are the x and y axes on the Cartesian plane that intersect each at right angles at the point of origin which is (0, 0)
-1 is a one-dimensional entity. It can have no equivalent in ordered pairs.
because....
Y is the second number in a set of ordered pairs.
Ordered pairs that have a negative x and a positive y are in the second quadrant.