It is nought point two six or twenty six hundredths
.026 = 2.6%
12, -12
With computers it is often bit (binary digit) patterns that matter and with octal or hexadecimal numbers it is easy to convert them to binary as each digit is represented by an exact number of binary digits (3 for octal, 4 for hexadecimal) without any waste.Using *nix access permissions as an example, the basic permissions are split into 3 groups (Owner, Group, World), each with 3 possible permissions (Read, Write and eXecute). These are stored as a bit pattern: if set the permission is granted, if not set permission is not granted. A file with rwxr-x--x (rwx for owner, r-x for group and --x for world) is stored in binary as 111101001 which can be represented in octal easily by reading it in groups of 3 bits: 111101001 → 111 101 001 = 0751, or in hexadecimal by splitting it into groups of 4 bits: 111101001 → 1 1110 1001 = 0x1e9; but to convert it to decimal requires: 256 + 128 + 64 + 32 + 8 + 1 = 489.Similarly, going the other way: what permissions are represented by 420?420 to binary:420 ÷ 2 = 210 r 0210 ÷ 2 = 105 r 0105 ÷ 2 = 52 r 152 ÷ 2 = 26 r 026 ÷ 2 = 13 r 013 ÷ 2 = 6 r 16 ÷ 2 = 3 r 03 ÷ 2 = 1 r 11 ÷ 2 = 0 r 1→ 420 = 110100100 in binary = rw-r--r--420 in octal is 0644 and in hexadecimal is 0x1a40644 to binary: 110 100 100 → 110100100 as before [much quicker and easier]0x1a4 to binary: 1 1010 0100 → 110100100 again.
260
0.00026
0.26 = 13/50
Rounded to one decimal place, 0.09 is approximately equal to 0.1.
the 026 pro is a newer version
4,026,311 = four million, twenty-six thousand, three hundred eleven.
620 602 206 260 062 026
four million, twenty six thousand, three hundred and eleven
26 you just have to move the decimal point by 1. 1 represents the place where tenths is placed as a decimal. So if the question is How many hundredths are there in 2.6? The answer will be 260 - you will move the decimal point 2 times because hundredths is the 2nd digit as a decimal
Dutch area code 026 (or international +31 26) is Arnhem.
.026 = 2.6%
.026