(Redirected from Surjective
In mathematics, a surjective function (or onto function or surjection) is a function with the property that all possible output values of the function are generated when the input ranges over all the values in the domain.
More formally, a function f: X → Y is surjective if, for every y in the codomain Y, there is at least one x in the domain X with f(x) = y.
Put another way, f is surjective if its range f(X) is equal to the codomain Y, or equivalently, if every element in the codomain has a preimage.
Bijective (injective and surjective)
Injective, not surjective
Surjective, not injective
Not surjective, not injective
Examples and counterexamples
The function g: R → R defined by g(x) = x2 is not surjective, because (for example) there is no real number x such that x2 = −1.
However, if we define the function h: R → [0, ∞) by the same formula as g, but with the codomain restricted to only the nonnegative real numbers, then the function h is surjective.
This is because, given an arbitrary nonnegative real number y, we can solve y = x2 to get solutions x = √y and x = −√y.
- A function f: X → Y is surjective if and only if there exists a function g: Y → X such that f o g equals the identity function on Y. (This statement is equivalent to the axiom of choice.)
- By definition, a function is bijective if and only if it is both surjective and injective.
- If f o g is surjective, then f is surjective.
- If f and g are both surjective, then f o g is surjective.
- f: X → Y is surjective if and only if, given any functions g,h:Y → Z, whenever g o f = h o f, then g = h. In other words, surjective functions are precisely the epimorphisms in the category Set of sets.
- If f: X → Y is surjective and B is a subset of Y, then f(f −1(B)) = B. Thus, B can be recovered from its preimage f −1(B).
- Every function h: X → Z can be decomposed as h = g o f for a suitable surjection f and injection g. This decomposition is unique up to isomorphism, and f may be thought of as a function with the same values as h but with its codomain restricted to the range h(W) of h, which is only a subset of the codomain Z of h.
- If f: X → Y is a surjective function, then X has at least as many elements as Y, in the sense of cardinal numbers.
- If both X and Y are finite with the same number of elements, then f : X → Y is surjective if and only if f is injective.