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Subtraction also obeys predictable rules concerning related operations, such as addition and multiplication. All of these rules can be proven, starting with the subtraction of integers and generalizing up through the real numbers and beyond. General binary operations that follow these patterns are studied in abstract algebra.
A subtraction problem such as is solved by borrowing a 10 from the tens place to add to the ones place in order to facilitate the subtraction. Subtracting 9 from 6 involves borrowing a 10 from the tens place, making the problem into +. This is indicated by crossing out the 8, writing a 7 above it, and writing a 1 above the 6.
For example, subtraction is the inverse of addition since a number returns to its original value if a second number is first added and subsequently subtracted, as in + =. Defined more formally, the operation " ⋆ {\displaystyle \star } " is an inverse of the operation " ∘ {\displaystyle \circ } " if it fulfills the following condition: t ⋆ ...
The smaller numbers, for use when subtracting, are the nines' complement of the larger numbers, which are used when adding. In mathematics and computing , the method of complements is a technique to encode a symmetric range of positive and negative integers in a way that they can use the same algorithm (or mechanism ) for addition throughout ...
The first three examples above are commutative and all of the above examples are associative. On the set of real numbers R {\displaystyle \mathbb {R} } , subtraction , that is, f ( a , b ) = a − b {\displaystyle f(a,b)=a-b} , is a binary operation which is not commutative since, in general, a − b ≠ b − a {\displaystyle a-b\neq b-a} .
For example, misinterpreting any of the above rules to mean "addition first, subtraction afterward" would incorrectly evaluate the expression [25] + as (+), while the correct evaluation is () +. These values are different when c ≠ 0 {\displaystyle c\neq 0} .