Letter
Binary CodeA01000001B01000010C01000011D01000100E01000101F01000110G01000111H01001000I01001001J01001010K01001011L01001100M01001101N01001110O01001111P01010000Q01010001R01010010S01010011T01010100U01010101V01010110W01010111X01011000Y01011001Z01011010
Letter
Binary Codea01100001b01100010c01100011d01100100e01100101f01100110g01100111h01101000i01101001j01101010k01101011l01101100m01101101n01101110o01101111p01110000q01110001r01110010s01110011t01110100u01110101v01110110w01110111x01111000y01111001z01111010
0010 0111 0000 0000 1110 0100 1100 0110 0011 1001 0000 1110 1111 1011 0100 0010 0011 0100 0101 1100 0001 0000 0110
01100010 01101001 01110100 01100101
01100010 = b
01101001 = i
01110100 = t
01100101 = e
01101000 01101001
Perform Binary Addition
1111
+1001
00110101 is the binary code for 53
Decimal 30 = binary 11110. The decimal binary code (BCD), however, is 11 0000.
356 in binary is101100100
14 decimal in binary is 11102. In octal it is 168 and in hexadecimal it is 0E16.
It is that type of binary code where weights are assigned to each symbol position in the code word.
cutie
114 117 98 105 120
01001001 01000110 (uppercase IF) (see the related link)
mignon
The phrase "hi cutie" translates to "salut mignon" in French.
That IS the binary code.
cutie
00100001 is the binary code for 33
00110101 is the binary code for 53
Taking each letter in turn: 01101000 is h 01100101 is e 01111001 is y
In Chinese, "cutie" can be spelled as "可爱" (kě'ài) which means cute or adorable.
Jamesgates discovered binary code instringtheory