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Calculator spelling is an unintended characteristic of the seven-segment display traditionally used by calculators, in which, when read upside-down, the digits resemble letters of the Latin alphabet. Each digit may be mapped to one or more letters, creating a limited but functional subset of the alphabet, sometimes referred to as beghilos (or ...
A numeric character reference refers to a character by its Universal Character Set/Unicode code point, and a character entity reference refers to a character by a predefined name. A numeric character reference uses the format &#nnnn; or &#xhhhh; where nnnn is the code point in decimal form, and hhhh is the code point in hexadecimal form.
TI-83 Plus character set (small font) [2] [4] 0 1 2 3 4 5 6 7 8 9 A B C D E F Dx 25A0: â 2215 â 2010: ² 00B2 ° 00B0: ³ 00B3 LF ð 1D456: PĖ 0050 0302: χ 03C7
The Universal Coded Character Set (UCS, Unicode) is a standard set of characters defined by the international standard ISO/IEC 10646, Information technology — Universal Coded Character Set (UCS) (plus amendments to that standard), which is the basis of many character encodings, improving as characters from previously unrepresented writing systems are added.
Casio calculator character sets are a group of character sets used by various Casio calculators and pocket computers. [1] ... ^*1 Back control code. ^*2 Forward ...
Unary coding, [nb 1] or the unary numeral system and also sometimes called thermometer code, is an entropy encoding that represents a natural number, n, with a code of length n + 1 ( or n), usually n ones followed by a zero (if natural number is understood as non-negative integer) or with n − 1 ones followed by a zero (if natural number is understood as strictly positive integer).
ISO 18265: "Metallic materials — Conversion of hardness values" (2013) ASTM E140-12B(2019)e1: "Standard Hardness Conversion Tables for Metals Relationship Among Brinell Hardness, Vickers Hardness, Rockwell Hardness, Superficial Hardness, Knoop Hardness, Scleroscope Hardness, and Leeb Hardness" (2019)
[2] As an example of where precision is lost, a 16-bit unsigned integer (uint16) can only hold a value as large as 65,535 10. If unsigned 16-bit integers are used to represent values from 0 to 131,070 10, then a scale factor of 1 ⁄ 2 would be introduced, such that the scaled values correspond exactly to the real-world even integers.