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Decimal is the principal numeral system used by humans. This is almost certainly because humans have ten fingers; digit is also the anatomical term referring to fingers and toes. (However, some cultures do or did use other number systems, including the Maya, the Babylonians, and the Yuki Indians of California, who used base 8 because they counted the spaces between their fingers rather than the fingers themselves.) The set of symbols for the digits is called Arabic numerals by Europeans and Indian numerals by Arabs, each term referring to the people that the users of the term got the symbols from.
Decimal numerals can be encoded for computers using binary-coded decimal or more efficient schemes.
A decimal fraction is a fraction where the denominator is a powerIn mathematics, exponentiation is a process generalized from repeated multiplication, in much the same way that multiplication is a process generalized from repeated addition. The next operation after exponentiation is sometimes called tetration; repeatin of ten.
Decimal fractions are usually expressed without a denominator, the decimal point being inserted into the numerator at a position corresponding to the power of ten of the denominator. E.g. 8/10, 833/100, 83/1000, 8/10000 and 80/10000 are expressed thus: 0.8, 8.33, 0.083, 0.0008 & 0.008.
The integerThe integers consist of the positive natural numbers (1, 2, 3, …) the negative natural numbers (−1, −2, −3,. and the number zero. The set of all integers is usually denoted in mathematics by Z (or Z in blackboard bold, ), which st and fractionIn common usage a fraction is any part of a unit. In mathematics: A vulgar fraction is a rational number written as one integer (the numerator divided by a non-zero integer (the denominator . The line that separates the numerator and the denominator is caal parts of a decimal number are separated by a decimal point. In this article, as in most of the English speaking world, a dot (.) is used. It is usual for a decimal number which is less than one to have a leading zero. Trailing zeroes after the decimal point are not necessary, although in science, engineering and statistics they can be retained to show a level of confidence in the accuracy of the number: Whereas 0.080 and 0.08 are mathematically the same number, in engineering 0.080 suggests an error of up to 1 part in a thousand, while 0.08 suggests an error of up to 1 in a hundred.
Any rational number which cannot be expressed as a decimal fraction has a unique infinite decimal expansion ending with recurring decimals.
Ten is the product of the first and third prime number, is one greater than the square of the second prime number, and is one less than the fifth prime number. This leads to plenty of simple decimal fractions:
Other prime factors in the denominator will give longer recurring sequences, see for instance 7, 13.
That a rational must producing a finite or recurring decimal expansion can be seen to be a consequence of the long division algorithm, in that there are only (q-1) possible nonzero remainders on division by q, so that the recurring pattern will have a period less than q-1. For instance to find 3/7 by long division:
.4 2 8 5 7 1 4 ... -------------------- 7 ) 3.0 0 0 0 0 0 0 0 2 8 30/7 = 4 r 2 ----- 2 0 1 4 20/7 = 2 r 6 ----- 6 0 5 6 60/7 = 8 r 4 ----- 4 0 3 5 40/7 = 5 r 5 ----- 5 0 4 9 50/7 = 7 r 1 ----- 1 0 7 10/7 = 1 r 3 ----- 3 0 2 8 30/7 = 4 r 2 (again) ----- 2 0 etcThe converse to this observation is that every recurring decimal represents a rational number p/q. This is a consequence of the fact the recurring part of a decimal representation is, in fact, an infinite geometric series which will sum to a rational number. For instance,