It's impossible to give you an answer for this unless you know what character encoding was used. Translating that to ASCII will give an entirely different answer than translating from Unicode.
I think its something like this {| ! width="30%" | Letter ! Binary Code | A01000001B01000010C01000011D01000100E01000101F01000110G01000111H01001000I01001001J01001010K01001011L01001100M01001101N01001110O01001111P01010000Q01010001R01010010S01010011T01010100U01010101V01010110W01010111X01011000Y01011001Z01011010 and ! width="30%" | Letter ! Binary Code | a01100001b01100010c01100011d01100100e01100101f01100110g01100111h01101000i01101001j01101010k01101011l01101100m01101101n01101110o01101111p01110000q01110001r01110010s01110011t01110100u01110101v01110110w01110111x01111000y01111001z01111010 |}
Extended Binary Coded Decimal Interchange Code
All letters can be represented in binary, however binary code is represented only by the numbers 0 and 1.
They understand machine code, i.e. Binary Digits.
They are all numbers of zero and ones
That IS the binary code.
The idea of binary code came about in the late 1600s and is often credited to Gottfried Leibniz , a German mathematician and all round clever person. Francis Bacon was using a binary code with letters of the alphabet as a cipher, so aaab aabb etc exactly the same as binary, this is in his book The Advancement of Learning.
00100001 is the binary code for 33
00110101 is the binary code for 53
There are a number of translators on the internet for working with binary. A few of these sites are QBit, Convert Binary and Binary Translator. Every site may not offer or translate accurately into a users desired format. Having multiple sites for comparison would be a good option.
Computer don't have Morse code. They use something called Binary Code. It uses 1s and 0s for the letters whereas Morse code uses dots and dashes.
Jamesgates discovered binary code instringtheory