True, it can, but that would make the table pretty much useless.
Yes, because for every X input there are multiple y values.
it would be different because every 4 hours there will be a different minimum of temperature .
Every function has a vertical asymptote at every values that don't belong to the domain of the function. After you find those values you have to study the value of the limit in that point and if the result is infinite, then you have an vertical asymptote in that value
Use the function to find the image of each point in the domain. The set of values that you get will be the range. If the function is well behaved, you will not have to try each and every value in the domain.
Yes. If it had more than one y value for each x value, on the other hand, it would not. A function is "Something that has a value depending on some input". Now an equation is something like Function(of x) = 0. You could say this equation has 2 possible values, True or False. This is not the same thing as saying there are two values of x to make the zero. So y=x2 has two values of x for every y. Generally, nobody would say y=x2 is a function. Except in the sense that it the equation is true for some values of x and y, and false for any others.
No
true
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 .
Every function has a vertical asymptote at every values that don't belong to the domain of the function. After you find those values you have to study the value of the limit in that point and if the result is infinite, then you have an vertical asymptote in that value
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.