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Why would removing this ordered pair make the relation a function?
Removing the ordered pair would ensure that each input (or "x" value) in the relation corresponds to exactly one output (or "y" value). A function is defined as a relation where no two ordered pairs have the same first component with different second components. Therefore, eliminating the pair that violates this condition would make the relation a valid function.
Is ordered pairs a relation or function?
An ordered pair can represent either a relation or a function, depending on its properties. A relation is simply a set of ordered pairs, while a function is a specific type of relation where each input (first element of the pair) is associated with exactly one output (second element of the pair). If an ordered pair is part of a set where each input corresponds to only one output, it defines a function. Otherwise, it is just a relation.
What part of a relation is the set of all first components from each order pair?
This is most often called the "range" of the relation. * * * * * Though more often the first coordinate is the DOMAIN and the second coordinate is the RANGE.
When is a relation also a function?
A relation is also a function if each member of the domain (or x-coordinate) is paired with only one member of the range (or y-coordinate). If the relation is a set of ordered pairs that consists of real numbers a graph can be created to visualize the relation. If a vertical line can be drawn and only crosses or intersects the graph at one point then the relation is also a function.
What values do we plot on the y - axis of a graph?
On whichever variable is considered the y-variable. It would be the second element of each ordered pair of data points.
What part of a relation is the set of all first components from each ordered pair?
domain
Is a relation in which each first component in the ordered pairs corresponds to exactly one second component.?
Not necessarily. x to sqrt(x) is a relation, but (apart from 0) the first component in each pair corresponds to two second components eg (4, -2) and (4, +2). The square root is, nevertheless, a relation, though it is not a function.
What part of a relation is the set of all second component from each ordered pair?
Range
What is meaning of relation in math?
A relation is any set of ordered pairs.A function is a relation in which each first element corresponds to exactly one second element
What is the employment and ordered arrangement of forces in relations to each other?
Employment And Ordered Arrangement Of Forces In Relation To Each Ther
Switching of coordinates in each ordered pair?
The INVERSE of any relation is obtained by switching the coordinates in each ordered pair.
What is the employment and ordered arragement of forces in relation to each other?
Tactics
What part of a relation is the set of all first components from each order pair?
This is most often called the "range" of the relation. * * * * * Though more often the first coordinate is the DOMAIN and the second coordinate is the RANGE.
How do you determine if you are given a set of ordered pairs that represent a function?
A relation is a set of ordered pairs.A function is a relation such that for each element there is one and only one second element.Example:{(1, 2), (4, 3), (6, 1), (5, 2)}This is a function because every ordered pair has a different first element.Example:{(1, 2), (5, 6), (7, 2), (1, 3)}This is a relation but not a function because when the first element is 1, the second element can be either 2 or 3.
What relation are you to your 2nd cousin's son?
You and your second cousin's son are second cousins, once removed, to each other.
What relation is your grandson to your sibling's grandson?
The grandchildren of siblings are second cousins to each other.
It is a rectangular system picturing a relation where each point corresponds to exactly one ordered pair of real numbers?
It is the coordinate or Cartesian plane.
