Binary numeral system: Difference between revisions

The binary number system, also referred to as base-2, or radix-2, represents numbers using only the digits 0 and 1. This is in contrast with the more familiar decimal number system (a.k.a. base-10, radix-10) which uses the digits 0, 1, 2, 3, 4, 5, 6, 7, 8, and 9. In the decimal system, each digit position represents a power of ten. The number ${\displaystyle 10}$ represents the value consisting of one set of tens (${\displaystyle 10^{1}}$), and no sets of ones (${\displaystyle 10^{0}}$). Equivalently in the binary system each digit position represents a power of two. The same number, ${\displaystyle 10}$ represents the value consisting of one set of twos (${\displaystyle 2^{1}}$) and no sets of ones (${\displaystyle 2^{0}}$) which is represented by the number 2 in the decimal system. When the numbering system used for a number is in question, one can write the radix as a subscript to the number as done in the following table.

Decimal	${\displaystyle 100_{10}=(1\times 10^{2})+(0\times 10^{1})+(0\times 10^{0})}$
Binary	${\displaystyle 100_{2}=(1\times 2^{2})+(0\times 2^{1})+(0\times 2^{0})=4_{10}+0+0=4_{10}}$

Because the number of digits in the binary representation of a value can grow quickly, binary values are often represented in the hexadecimal number system (base-16), which uses the digits 0 through 9, followed by the letters A through F to represent the values ten, eleven, twelve, thirteen, fourteen, and fifteen.