That would depend on the given system of linear equations which have not been given in the question
The x and y coordinates are plotted on the Cartesian plane.
As ordered sets of numbers - pairs for coordinates in a plane, triplets for coords in 3D space, and so on for higher dimensions.
You can write ordered pairs as ratios to determine if two sets of ordered pairs form a linear or non-linear relationship. In a table of x,y values, the ordered pairs are listed as the x value first, then the corresponding y value. Remove from the table and write as a ratio of x over y, (or y over x, if you like). In a linear relationship, all the ratios of x over y, (or y over x) are equivalent.
There is no such thing. One number is one number.Structures with more than one number include sets (if the sets happen to be made up of numbers), and ordered pairs.
Cartesian product is the name that refers to the set of the ordered pairs. The Cartesian product of two sets A and B is AB.
You might be thinking of the scattergram.
That would depend on the given system of linear equations which have not been given in the question
The x and y coordinates are plotted on the Cartesian plane.
As ordered sets of numbers - pairs for coordinates in a plane, triplets for coords in 3D space, and so on for higher dimensions.
You can write ordered pairs as ratios to determine if two sets of ordered pairs form a linear or non-linear relationship. In a table of x,y values, the ordered pairs are listed as the x value first, then the corresponding y value. Remove from the table and write as a ratio of x over y, (or y over x, if you like). In a linear relationship, all the ratios of x over y, (or y over x) are equivalent.
There is no such thing. One number is one number.Structures with more than one number include sets (if the sets happen to be made up of numbers), and ordered pairs.
Pairs Of Chromosomes Are Called :Sets
We don't know what kind of sets.
The Cartesian product of two sets, A and B, where A has m distinct elements and B has n, is the set of m*n ordered pairs. The magnitude is, therefore m*n.
union of sets,intersection of sets,difference of sets,ordered pair,ordered n-touples,cartician product of setThe basic operations are union and intersection. The complement of the set is also a basic operation.
Depends on what sets means. If it is pairs of letters then it is bookkeeper