I was teaching C to my younger brother studying engineering. I was explaining him how different data-types are actually stored in the memory. I explained him the logistics behind having signed/unsigned numbers and floating point bit in decimal numbers. While I was telling him about char type in C, I also took him through the ASCII code system and also how char is also stored as 1 byte number.

He asked me why 'A' has been given ASCII code 65 and not anything else? Similarly why 'a' is given the code 97 specifically? Why is there a gap of 6 ASCII codes between the range of capital letters and small letters? I had no idea of this. Can you help me understand this, since this has created a great curiosity to me as well. I've never found any book so far that has discussed this topic.

What is the reason behind this? Are ASCII codes logically organized?

  • 4
    While it's fine to talk about floats and decimals in a non-technical manner, most of the floats out there in the wild are binary floating point, not decimal floating point, which is the source of lots of confusion for programmers. It's sort of like teaching that the sun orbits the earth - fine for kids to understand night and day, but confusing for budding rocket scientists. Jun 16, 2010 at 1:14
  • 1
    Related: Things Every Hacker Once Knew (about ASCII and related technologies) Jan 27, 2017 at 19:25
  • The gap is to align the upper and lower alphabet the same way relative to a %32 boundary, making this work: What is the idea behind ^= 32, that converts lowercase letters to upper and vice versa? Dec 26, 2020 at 2:18

7 Answers 7


There are historical reasons, mainly to make ASCII codes easy to convert:

Digits (0x30 to 0x39) have the binary prefix 110000:

0 is 110000
1 is 110001
2 is 110010

etc. So if you wipe out the prefix (the first two '1's), you end up with the digit in binary coded decimal.

Capital letters have the binary prefix 1000000:

A is 1000001
B is 1000010
C is 1000011

etc. Same thing, if you remove the prefix (the first '1'), you end up with alphabet-indexed characters (A is 1, Z is 26, etc).

Lowercase letters have the binary prefix 1100000:

a is 1100001
b is 1100010
c is 1100011

etc. Same as above. So if you add 32 (100000) to a capital letter, you have the lowercase version.

  • 4
    Buy why is 'A' 65 rather than 64? Any encoding has some degree of logic and some degree of arbitrariness.
    – Jim Balter
    Dec 11, 2012 at 20:29
  • @JimBalter Because they wanted the alphabet to be 1-indexed. 1 is A, 26 is Z. Sep 8, 2016 at 13:52
  • @NathanLong There is no reason to want that and no evidence that it is true. And 65 is not 1. Subtracting 63 from the letter would yield 1-indexing.
    – Jim Balter
    Sep 8, 2016 at 18:46
  • 4
    @JimBalter Sorry, I should have put a question mark - "Because they wanted the alphabet to be 1-indexed?" I'm speculating. As far as 65 being 1, this answer says "Capital letters have the binary prefix 1000000", which is 64. So if you remove that prefix (subtract 64), A is 01 (1), B is 10 (2), etc. Sep 8, 2016 at 20:32

This chart shows it quite well from wikipedia: Notice the two columns of control 2 of upper 2 of lower, and then gaps filled in with misc. ASCII Chart on Wikipedia

Also bear in mind that ASCII was developed based on what had passed before. For more detail on the history of ASCII, see this superb article by Tom Jennings, which also includes the meaning and usage of some of the stranger control characters.


Here is very detailed history and description of ASCII codes: http://en.wikipedia.org/wiki/ASCII
In short:

  • ASCII is based on teleprinter encoding standards
  • first 30 characters are "nonprintable" - used for text formatting
  • then they continue with printable characters, roughly in order they are placed on keyboard. Check your keyboard:
    • space,
    • upper case sign on number caps: !, ", #, ...,
    • numbers
    • signs usually placed at the end of keyboard row with numbers - upper case
    • capital letters, alphabetically
    • signs usually placed at the end of keyboard rows with letters - upper case
    • small letters, alphabetically
    • signs usually placed at the end of keyboard rows with letters - lower case
  • 1
    Some older keyboards (I know the Atari 800 was one) had the " character on the 2 key, so the correspondence between encoding and keyboard order was closer.
    – dan04
    Jun 9, 2010 at 5:05
  • @dan04 That's interesting. British keyboards have the " character on the 2 key even today. And typewriters as well IIRC. Sep 26, 2018 at 9:06

The distance between A and a is 32. That's quite round number, isn't it?

The gap of 6 characters between capital letters and small letters is because (32 - 26) = 6. (Note: there are 26 letters in the English alphabet).


If you look at the binary representations for 'a' and 'A', you'll see that they only differ by 1 bit, which is pretty useful (turning upper case to lower case or vice-versa is just a matter of flipping a bit). Why start there specifically, I have no idea.

  • 'A' is 0x41 in hexidecimal.
  • 'a' is 0x61 in hexidecimal.
  • '0' thru '9' is 0x30 - 0x39 in hexidecimal.

So at least it is easy to remember the numbers for A, a and 0-9. I have no idea about the symbols. See The Wikipedia article on ASCII Ordering.



The code itself was structured so that most control codes were together, and all graphic codes were together. The first two columns (32 positions) were reserved for control characters.[14] The "space" character had to come before graphics to make sorting algorithms easy, so it became position 0x20.[15] The committee decided it was important to support upper case 64-character alphabets, and chose to structure ASCII so it could easily be reduced to a usable 64-character set of graphic codes.[16] Lower case letters were therefore not interleaved with upper case. To keep options open for lower case letters and other graphics, the special and numeric codes were placed before the letters, and the letter 'A' was placed in position 0x41 to match the draft of the corresponding British standard.[17] The digits 0–9 were placed so they correspond to values in binary prefixed with 011, making conversion with binary-coded decimal straightforward.

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