# addition

is a mathematical operation  in which two or more numbers are added up. The numbers being added are usually called the addends, while the result is usually called the sum. The numbers may be real, imaginary or complex. Two examples: 2 + 2 = 4; $4+\pi\approx 7.14159$. In the realm of real numbers, adding up positive numbers yields a result that is greater than any of the summands.

The usual symbol for addition is the cross with its four arms of equal length pointing north, east, west and south: +. This operator is used in standard infix notation as well as in Polish notation and reverse Polish notation  . The operation of addition is commutative, so $x+y=y+z$. Moreover, it is associative, so $x+(y+z)=(x+y)+z$. Combining these two facts leads to the observation that if $S$ is a finite set  of numbers, then we can add them up one by one in any order without any potential ambiguity in the resulting sum. This allows us to define the sigma notation

 $\sum_{x\in S}x$

for the sum of finitely many numbers. For example, the sum of the first $n$ positive perfect cubes can be written as

 $\sum_{i\in\{1,\dots,n\}}i^{3}.$

An alternate way of writing the same sum is

 $\sum_{i=1}^{n}i^{3}.$

Here we might imagine the sum as being produced by an iterative process. But because of the aforementioned commutativity and associativity, it doesn’t matter if the iterator is started at the smallest value or the largest value.

A notable property of the iterative sum is that

 $\sum_{i=1}^{n}i^{3}=\biggl{(}\sum_{i=1}^{n}i\biggr{)}^{2}.$

Besides the possibility of overflow, addition presents no problems for fixed point arithmetic provided the operands are representable in fixed point  to begin with. In floating point there exists the possibility of loss of precision (if for example we were to add up several different irrational numbers).

Title addition Addition 2013-03-22 16:35:28 2013-03-22 16:35:28 PrimeFan (13766) PrimeFan (13766) 8 PrimeFan (13766) Definition msc 11B25 msc 00A06 msc 00A05 Summation