In mathematics, a zero element is one of several generalizations of the number zero to other

algebraic structure In mathematics, an algebraic structure consists of a nonempty set ''A'' (called the underlying set, carrier set or domain), a collection of operations on ''A'' (typically binary operations such as addition and multiplication), and a finite set ...

s. These alternate meanings may or may not reduce to the same thing, depending on the context.

Additive identities

additive identity In mathematics, the additive identity of a set that is equipped with the operation of addition is an element which, when added to any element ''x'' in the set, yields ''x''. One of the most familiar additive identities is the number 0 from eleme ...

is the

identity element In mathematics, an identity element, or neutral element, of a binary operation operating on a set is an element of the set that leaves unchanged every element of the set when the operation is applied. This concept is used in algebraic structures s ...

in an

additive group An additive group is a group of which the group operation is to be thought of as ''addition'' in some sense. It is usually abelian, and typically written using the symbol + for its binary operation. This terminology is widely used with structure ...

. It corresponds to the element 0 such that for all x in the group, . Some examples of additive identity include: * The zero vector under

vector addition In mathematics, physics, and engineering, a Euclidean vector or simply a vector (sometimes called a geometric vector or spatial vector) is a geometric object that has Magnitude (mathematics), magnitude (or euclidean norm, length) and Direction ( ...

: the vector of length 0 and whose components are all 0. Often denoted as

\mathbf

\vec

. * The zero function or zero map defined by , under pointwise addition * The

empty set In mathematics, the empty set is the unique set having no elements; its size or cardinality (count of elements in a set) is zero. Some axiomatic set theories ensure that the empty set exists by including an axiom of empty set, while in oth ...

under

set union In set theory, the union (denoted by ∪) of a collection of sets is the set of all elements in the collection. It is one of the fundamental operations through which sets can be combined and related to each other. A refers to a union of ze ...

* An empty sum or empty

coproduct In category theory, the coproduct, or categorical sum, is a construction which includes as examples the disjoint union of sets and of topological spaces, the free product of groups, and the direct sum of modules and vector spaces. The cop ...

* An

initial object In category theory, a branch of mathematics, an initial object of a category is an object in such that for every object in , there exists precisely one morphism . The dual notion is that of a terminal object (also called terminal element) ...

in a

category Category, plural categories, may refer to: Philosophy and general uses *Categorization, categories in cognitive science, information science and generally * Category of being * ''Categories'' (Aristotle) * Category (Kant) * Categories (Peirce) ...

(an empty coproduct, and so an identity under

Absorbing elements

An absorbing element in a multiplicative

semigroup In mathematics, a semigroup is an algebraic structure consisting of a Set (mathematics), set together with an associative internal binary operation on it. The binary operation of a semigroup is most often denoted multiplication, multiplicatively ...

semiring In abstract algebra, a semiring is an algebraic structure similar to a ring, but without the requirement that each element must have an additive inverse. The term rig is also used occasionally—this originated as a joke, suggesting that rigs a ...

generalises the property . Examples include: *The

, which is an absorbing element under

Cartesian product In mathematics, specifically set theory, the Cartesian product of two sets ''A'' and ''B'', denoted ''A''×''B'', is the set of all ordered pairs where ''a'' is in ''A'' and ''b'' is in ''B''. In terms of set-builder notation, that is : A\ ...

of sets, since *The zero function or zero map defined by under

pointwise multiplication In mathematics, the pointwise product of two functions is another function, obtained by multiplying the images of the two functions at each value in the domain. If and are both functions with domain and codomain , and elements of can be mult ...

Many absorbing elements are also additive identities, including the empty set and the zero function. Another important example is the distinguished element 0 in a field or ring, which is both the additive identity and the multiplicative absorbing element, and whose principal ideal is the smallest ideal.

Zero objects

A zero object in a

is both an initial and terminal object (and so an identity under both

s and products). For example, the trivial structure (containing only the identity) is a zero object in categories where morphisms must map identities to identities. Specific examples include: *The trivial group, containing only the identity (a zero object in the

category of groups In mathematics, the category Grp (or Gp) has the class of all groups for objects and group homomorphisms for morphisms. As such, it is a concrete category. The study of this category is known as group theory. Relation to other categories T ...

) *The zero module, containing only the identity (a zero object in the category of modules over a ring)

Zero morphisms

A zero morphism in a

is a generalised absorbing element under

function composition In mathematics, function composition is an operation that takes two functions and , and produces a function such that . In this operation, the function is applied to the result of applying the function to . That is, the functions and ...

: any morphism composed with a zero morphism gives a zero morphism. Specifically, if is the zero morphism among morphisms from ''X'' to ''Y'', and and are arbitrary morphisms, then and . If a category has a zero object 0, then there are canonical morphisms and and composing them gives a zero morphism . In the

, for example, zero morphisms are morphisms which always return group identities, thus generalising the function

Least elements

A least element in a

partially ordered set In mathematics, especially order theory, a partially ordered set (also poset) formalizes and generalizes the intuitive concept of an ordering, sequencing, or arrangement of the elements of a set. A poset consists of a set together with a binar ...

or lattice may sometimes be called a zero element, and written either as 0 or ⊥.

Zero module

In mathematics, the zero module is the module consisting of only the additive identity for the module's

addition Addition (usually signified by the plus symbol ) is one of the four basic operations of arithmetic, the other three being subtraction, multiplication and division. The addition of two whole numbers results in the total amount or ''sum'' of ...

function. In the

integer An integer is the number zero (), a positive natural number (, , , etc.) or a negative integer with a minus sign ( −1, −2, −3, etc.). The negative numbers are the additive inverses of the corresponding positive numbers. In the language ...

s, this identity is

zero 0 (zero) is a number representing an empty quantity. In place-value notation such as the Hindu–Arabic numeral system, 0 also serves as a placeholder numerical digit, which works by multiplying digits to the left of 0 by the radix, usu ...

, which gives the name ''zero module''. That the zero module is in fact a module is simple to show; it is closed under addition and

multiplication Multiplication (often denoted by the cross symbol , by the mid-line dot operator , by juxtaposition, or, on computers, by an asterisk ) is one of the four elementary mathematical operations of arithmetic, with the other ones being ad ...

trivially.

Zero ideal

In mathematics, the zero ideal in a ring

R

is the ideal

\

consisting of only the additive identity (or

element). The fact that this is an ideal follows directly from the definition.

Zero matrix

In mathematics, particularly

linear algebra Linear algebra is the branch of mathematics concerning linear equations such as: :a_1x_1+\cdots +a_nx_n=b, linear maps such as: :(x_1, \ldots, x_n) \mapsto a_1x_1+\cdots +a_nx_n, and their representations in vector spaces and through matric ...

, a zero matrix is a

matrix Matrix most commonly refers to: * ''The Matrix'' (franchise), an American media franchise ** '' The Matrix'', a 1999 science-fiction action film ** "The Matrix", a fictional setting, a virtual reality environment, within ''The Matrix'' (franchi ...

with all its entries being

. It is alternately denoted by the symbol

O

. Some examples of zero matrices are :

0_ = \begin
0 \end
,\ 
0_ = \begin
0 & 0 \\
0 & 0 \end
,\ 
0_ = \begin
0 & 0 & 0 \\
0 & 0 & 0 \end
,\

The set of ''m'' × ''n'' matrices with entries in a ring ''K'' forms a module

K_

. The zero matrix

0_

K_

is the matrix with all entries equal to

0_K

, where

0_K

is the additive identity in ''K''. :

0_ = \begin
0_K & 0_K & \cdots & 0_K \\
0_K & 0_K & \cdots & 0_K \\
\vdots & \vdots &  & \vdots \\
0_K & 0_K & \cdots & 0_K \end

The zero matrix is the additive identity in

K_

. That is, for all

A \in K_

: :

0_+A = A + 0_{K_{m,n = A

There is exactly one zero matrix of any given size ''m'' × ''n'' (with entries from a given ring), so when the context is clear, one often refers to ''the'' zero matrix. In general, the zero element of a ring is unique, and typically denoted as 0 without any subscript to indicate the parent ring. Hence the examples above represent zero matrices over any ring. The zero matrix also represents the

linear transformation In mathematics, and more specifically in linear algebra, a linear map (also called a linear mapping, linear transformation, vector space homomorphism, or in some contexts linear function) is a mapping V \to W between two vector spaces that pr ...

which sends all vectors to the zero vector.

Zero tensor

In mathematics, the zero tensor is a

tensor In mathematics, a tensor is an algebraic object that describes a multilinear relationship between sets of algebraic objects related to a vector space. Tensors may map between different objects such as vectors, scalars, and even other tens ...

, of any order, all of whose components are

. The zero tensor of order 1 is sometimes known as the zero vector. Taking a

tensor product In mathematics, the tensor product V \otimes W of two vector spaces and (over the same Field (mathematics), field) is a vector space to which is associated a bilinear map V\times W \to V\otimes W that maps a pair (v,w),\ v\in V, w\in W to an e ...

of any tensor with any zero tensor results in another zero tensor. Adding the zero tensor is equivalent to the identity operation.

References

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