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255 (two hundred [and] fifty-five) is the natural number following 254 and preceding 256.
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Cardinal | two hundred fifty-five | |||
Ordinal | 255th (two hundred fifty-fifth) | |||
Factorization | 3 × 5 × 17 | |||
Divisors | 1, 3, 5, 15, 17, 51, 85, 255 | |||
Greek numeral | ΣΝΕ´ | |||
Roman numeral | CCLV | |||
Binary | 111111112 | |||
Ternary | 1001103 | |||
Senary | 11036 | |||
Octal | 3778 | |||
Duodecimal | 19312 | |||
Hexadecimal | FF16 |
In mathematics
editIts factorization makes it a sphenic number.[1] Since 255 = 28 – 1, it is a Mersenne number[2] (though not a pernicious one), and the fourth such number not to be a prime number. It is a perfect totient number, the smallest such number to be neither a power of three nor thrice a prime.
Since 255 is the product of the first three Fermat primes, the regular 255-gon is constructible.
In base 10, it is a self number.
255 is a repdigit in base 2 (11111111), in base 4 (3333), and in base 16 (FF).
In computing
edit255 is a special number in some tasks having to do with computing. This is the maximum value representable by an eight-digit binary number, and therefore the maximum representable by an unsigned 8-bit byte (the most common size of byte, also called an octet), the smallest common variable size used in high level programming languages (bit being smaller, but rarely used for value storage). The range is 0 to 255, which is 256 total values.
For example, 255 is the maximum value of
- components in the 24-bit RGB color model, since each color channel is allotted eight bits;
- any dotted quad in an IPv4 address; and
- the alpha blending scale in Delphi (255 being 100% visible and 0 being fully transparent).
The use of eight bits for storage in older video games has had the consequence of it appearing as a hard limit in many video games. For example, in the original The Legend of Zelda game, Link can carry a maximum of 255 rupees.[3] It was often used for numbers where casual gameplay would not cause anyone to exceed the number. However, in most situations it is reachable given enough time. This can cause many other peculiarities to appear when the number wraps back to 0, such as the infamous "kill screen" seen after clearing level 255 of Pac-Man.[4]
This number could be interpreted by a computer as −1 if a programmer is not careful about which 8-bit values are signed and unsigned, and the two's complement representation of −1 in a signed byte is equal to that of 255 in an unsigned byte.
References
edit- ^ Sloane, N. J. A. (ed.). "Sequence A007304 (Sphenic numbers: products of 3 distinct primes.)". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation.
- ^ "PDF" (PDF). American Mathematical Society. Retrieved 12 March 2015.
- ^ Hoovler, Evan. "The History of Annoying Side-Quests in Videogames Archived 2010-04-10 at the Wayback Machine." GameSpy. 2009-12-04.
- ^ Clewett, James. "255 and Pac-Man". Numberphile. 2007-17-11.