Hexadecimal
Hexadecimal (often abbreviated hex) is a base 16 numeral system, usually written using the symbols 0-9 and A-F. It is a useful system in computers because there is an easy mapping from four bits to a single hex digit. Thus one can represent every byte as two consecutive hexadecimal digits. Compare the binary, hex and decimal representations:
bin hex dec 0000 = 0 = 0 0001 = 1 = 1 0010 = 2 = 2 0011 = 3 = 3 0100 = 4 = 4 ... 1001 = 9 = 9 1010 = A = 10 1011 = B = 11 ... 1111 = F = 15So the decimal numeral 79 whose binary representation is 0100 1111 can be written as 4F in hexadecimal.
There are many ways to denote hexadecimal numerals, used in different programming languages:
- Ada encloses hexadecimal numerals in based "numeric quotes", e.g. "16#5A3#". (Note: Ada accepts this notation for all bases from 2 through 16 and for both integer and real types.)
- C and languages with a similar syntax (such as Java) prefix hexadecimal numerals with '0x', e.g. "0x5A3". The leading '0' is used because numbers must start with a numeric character, and the 'x' stands for hexadecimal.
- Pascal and some Assemblers indicate hex by an appended 'h' (if the numeral starts with a letter, then also with a preceding 0), e.g., "0A3Ch", "5A3h".
- Other assemblers (AT&T, Motorola) and some versions of BASIC uses a prefixed '$', e.g. "$5A3".
- Some versions of BASIC prefix hexadecimal numerals with "&h", e.g. "&h5A3".
- When talking about numeral systems other than base-10, or numerals in multiple bases, mathematicians write the base in subscript after the number, e.g. "5A316" or "5A3SIXTEEN".
The word "hexadecimal" is strange in that "hexa" is derived from Greek six and "decimal" is derived from Latin ten. The original term was the fully-Latin "sexidecimal", but that was changed because some people thought it to be too racy. The correct Greek would be hexagesimal, which some purists use.
The hexadecimal system is quite good for forming fractions:
See numeral system for a list of other base systems.Fractions
Because the base is a square, hexadecimal fractions have an odd period much more often than decimal ones.
