Sentences with ONTO-FUNCTION

Check out our example sentences below to help you understand the context.

Sentences

"The onto function mapping from set A to set B is injective."

"An onto function from set C onto set D exists."

"The onto function is surjective since every element in the codomain is mapped."

"The onto function guarantees that every element in the codomain is reached."

"The onto function allows for a unique mapping of elements from the domain to the codomain."

"An onto function can have multiple mappings from the domain to the codomain."

"The onto function ensures that no element in the codomain is left unmapped."

"The onto function exhibits a full range of mapping onto the codomain."

"The onto function satisfies the property that every element in the codomain has a preimage."

"An onto function is also called a surjective function."

"The function f: R -> R defined by f(x) = x^2 is an onto function because every real number has a preimage."

"The function g: Z -> Z defined by g(x) = 2x is an onto function because every integer has a preimage."

"The function h: [-1, 1] -> R defined by h(x) = sin(x) is an onto function because every real number has a preimage."

"The function f: N -> N defined by f(x) = 2x is an onto function because every natural number has a preimage."

"The function g: R -> R defined by g(x) = e^x is an onto function because every real number has a preimage."

"The function h: [0, +∞) -> R defined by h(x) = sqrt(x) is an onto function because every non-negative real number has a preimage."

"The function f: Z -> Z defined by f(x) = x^3 is an onto function because every integer has a preimage."

"The function g: (-∞, 0] -> R defined by g(x) = tan(x) is an onto function because every real number has a preimage."

"The function h: R -> R defined by h(x) = |x| is an onto function because every real number has a preimage."

"The function f: [0, 1] -> R defined by f(x) = log(x) is an onto function because every positive real number has a preimage."

"The function g: R -> R defined by g(x) = x is an onto function because every real number has a preimage."

"The function h: [0, +∞) -> [0, +∞) defined by h(x) = x^2 is an onto function because every non-negative real number has a preimage."

"The function f: R -> R defined by f(x) = 1/x is an onto function because every non-zero real number has a preimage."

"The function g: R -> R defined by g(x) = cos(x) is an onto function because every real number has a preimage."

"The function h: R -> R defined by h(x) = floor(x) is an onto function because every integer has a preimage."

"The function f: R -> R defined by f(x) = abs(x) is an onto function because every non-negative real number has a preimage."

"The function g: R -> R defined by g(x) = 0 is an onto function because every real number has a preimage."

"The function h: R -> R defined by h(x) = x^2 + 1 is an onto function because every real number has a preimage."

"The function f: R -> [-1, 1] defined by f(x) = sin(x) is an onto function because every real number in the range has a preimage."

"The function g: R -> R defined by g(x) = e^(-x) is an onto function because every positive real number has a preimage."

"An onto function is a mathematical function where every element in the codomain has a corresponding element in the domain."

"In set theory, an onto function is also known as a surjective function."

"The function f(x) = x^2 is an onto function from the set of real numbers to the non-negative real numbers."

"The onto function f(x) = e^x maps the set of real numbers onto the set of positive real numbers."

"An onto function can be visualized as every element in the codomain being covered by at least one element in the domain."

"An onto function can be bijective if and only if it has an inverse function."

"The function f(x) = sin(x) is an onto function from the set of real numbers to the interval [-1, 1]."

"In graph theory, an onto function is often represented by a directed graph with every node having at least one outgoing edge."