11
The range depends on the domain. If the domain is the complex field, the range is also the whole of the complex field. If the domain is x = 0 then the range is 4.
The simplest answer is that the domain is all non-negative real numbers and the range is the same. However, it is possible to define the domain as all real numbers and the range as the complex numbers. Or both of them as the set of complex numbers. Or the domain as perfect squares and the range as non-negative perfect cubes. Or domain = {4, pi} and range = {8, pi3/2} Essentially, you can define the domain as you like and the definition of the range will follow or, conversely, define the range and the domain definition will follow,
domain: (-infinity to infinity) range: ( -infinity to infinity)
domain: all real numbers range: {5}
dsvcvWv
The domain and range are two different sets associated with a relationship or function. There is not a domain of a range.
No domain no range
If you're looking to factor it, you can do it like so: d2ydx2 - yx2 = d3yx2 - yx2 = yx2(d3 - 1)
You do not graph range and domain: you can determine the range and domain of a graph. The domain is the set of all the x-values and the range is is the set of all the y-values that are used in the graph.
The domain and range are (0, infinity).Both the domain and the range are all non-negative real numbers.
The domain is, but the range need not be.
A number does not have a range and domain, a function does.
11
The range is the y value like the domain is the x value as in Domain and Range.
The domain of the inverse of a relation is the range of the relation. Similarly, the range of the inverse of a relation is the domain of the relation.
The domain is the the set of inputs. (x) The range is the set of oututs. (y)