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No
It is a function from the set of x-values to the set of y-values.
Every function differs from every other function. Otherwise they would not be different functions!
Not every relation is a function. But every function is a relation. Function is just a part of relation.
Typically, functions are graphed on x-y coordinates. A function of x means that for every x point, there must be a single y point. You can also many properties by graphing a function, such as the minimum and maximum points, slopes and inflection points, and the inverse of the function (y values plotted on x coordinate, and x values on y coordinate).
No
true
True, it can, but that would make the table pretty much useless.
A function will have a name, brackets and inside the brackets certain values will be needed, depending on the function. Some functions, like NOW(), do not need anything inside the brackets. Most functions have a set number of values needed in the function, and many have ones that are optional.
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.
It is a function from the set of x-values to the set of y-values.
Every function differs from every other function. Otherwise they would not be different functions!
Yes, because for every X input there are multiple y values.
every cell perform different function so overall function of the body is relevent to the every cell
a rang of values is a list of different Numbers eg: the speed of every car in a race would be a range of values
it would be different because every 4 hours there will be a different minimum of temperature .
No, this is not necessarily the case. A function can have an infinite range of solutions but not an infinite domain. This means that not every ordered pair would be a solution.