Undefined (mathematics)

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In mathematics, the term undefined is often used to refer to an expression which is not assigned an interpretation or a value (such as an indeterminate form, which has the possibility of assuming different values).^[1] The term can take on several different meanings depending on the context. For example:

• In various branches of mathematics, certain concepts are introduced as
  plane" in geometry
  ). As these terms are not defined in terms of other concepts, they may be referred to as "undefined terms".
• A function is said to be "undefined" at points outside of its domain – for example, the real-valued function ${\displaystyle f(x)={\frac {1}{x}}}$ is undefined for  ${\displaystyle x=0}$.
• In algebra, some arithmetic operations may not assign a meaning to certain values of its operands (e.g., division by zero). In which case, the expressions involving such operands are termed "undefined".^[2]

Undefined terms

In ancient times, geometers attempted to define every term. For example,

for more).

This more abstract approach allows for fruitful generalizations. In topology, a topological space may be defined as a set of points endowed with certain properties, but in the general setting, the nature of these "points" is left entirely undefined. Likewise, in category theory, a category consists of "objects" and "arrows", which are again primitive, undefined terms. This allows such abstract mathematical theories to be applied to very diverse concrete situations.

In arithmetic

The expression ${\displaystyle {\frac {n}{0}},n\neq 0}$ is undefined in arithmetic, as explained in division by zero (the ${\displaystyle {\frac {0}{0}}}$ expression is used in calculus to represent an indeterminate form).

Mathematicians have different opinions as to whether 0⁰ should be defined to equal 1, or be left undefined.

Values for which functions are undefined

The set of numbers for which a function is defined is called the domain of the function. If a number is not in the domain of a function, the function is said to be "undefined" for that number. Two common examples are ${\textstyle f(x)={\frac {1}{x}}}$, which is undefined for ${\displaystyle x=0}$, and ${\displaystyle f(x)={\sqrt {x}}}$, which is undefined (in the real number system) for negative ${\displaystyle x}$.

In trigonometry

In trigonometry, for all ${\displaystyle n\in \mathbb {Z} }$, the functions ${\displaystyle \tan \theta }$ and ${\displaystyle \sec \theta }$ are undefined for all ${\textstyle \theta =\pi \left(n-{\frac {1}{2}}\right)}$, while the functions ${\displaystyle \cot \theta }$ and ${\displaystyle \csc \theta }$ are undefined for all ${\displaystyle \theta =\pi n}$.

In complex analysis

In complex analysis, a point ${\displaystyle z\in \mathbb {C} }$ where a

(i.e., the function can be extended holomorphically to ${\displaystyle z}$), to ${\displaystyle z}$), and essential singularities (i.e., no meromorphic extension to ${\displaystyle z}$ can exist).

In computer science

Notation using ↓ and ↑

In

, if ${\displaystyle f}$ is a partial function on ${\displaystyle S}$ and ${\displaystyle a}$ is an element of ${\displaystyle S}$, then this is written as ${\displaystyle f(a)\downarrow }$, and is read as "f(a) is defined."^[3]

If ${\displaystyle a}$ is not in the domain of ${\displaystyle f}$, then this is written as ${\displaystyle f(a)\uparrow }$, and is read as "${\displaystyle f(a)}$ is undefined".

The symbols of infinity

In

and other mathematical disciplines, the symbol ${\displaystyle \infty }$ is frequently used to denote an infinite pseudo-number, along with its negative, ${\displaystyle -\infty }$. The symbol has no well-defined meaning by itself, but an expression like ${\displaystyle \left\{a_{n}\right\}\rightarrow \infty }$ is shorthand for a , which at some point is eventually larger than any given real number.

Performing standard arithmetic operations with the symbols ${\displaystyle \pm \infty }$ is undefined. Some extensions, though, define the following conventions of addition and multiplication:

• ${\displaystyle x+\infty =\infty }$   for all ${\displaystyle x\in \mathbb {R} \cup \{\infty \}}$.
• ${\displaystyle -\infty +x=-\infty }$   for all ${\displaystyle x\in \mathbb {R} \cup \{-\infty \}}$.
• ${\displaystyle x\cdot \infty =\infty }$   for all ${\displaystyle x\in \mathbb {R} ^{+}}$.

No sensible extension of addition and multiplication with ${\displaystyle \infty }$ exists in the following cases:

• ${\displaystyle \infty -\infty }$
• ${\displaystyle 0\cdot \infty }$ (although in
  measure theory
  , this is often defined as ${\displaystyle 0}$)
• ${\displaystyle {\frac {\infty }{\infty }}}$
• ${\displaystyle -\infty [{1(0)}]}$

For more detail, see extended real number line.

References

Further reading

• Smart, James R. (1988). Modern Geometries (Third ed.). Brooks/Cole.
  ISBN 0-534-08310-2
  .