The quick answer is that the character
'0' is represented in binary data by the ASCII number 48. That means, when you want the character
'0', the file actually has these bits in it:
00110000. Similarly, the printable character
'1' has a decimal value of 49, and is represented by the byte
'A' is 65, and is represented as
'a' is 97, and is represented as
If you want the null terminator at the end of the string,
'\0', that actually has a 0 decimal value, and so would be a byte of all zeroes:
00000000. This is truly a 0 value. To the compiler, there is no difference between
memset(buffer, 0, sizeof buffer);
memset(buffer, '\0', sizeof buffer);
The only difference is a semantic one to us.
'\0' tells us that we're dealing with a character, while 0 simply tells us we're dealing with a number.
It would help you tremendously to check out an ascii table.
fprintf outputs data using ASCII and outputs strings.
fwrite writes pure binary data. If you
fprintf(fp, "0"), it will put the value 48 in fp, while if you
fwrite(fd, 0) it will put the actual value of 0 in the file. (Note, my usage of
fwrite were obviously not proper usage, but shows the point.)
Note: My answer refers to ASCII because it's one of the oldest, best known character sets, but as Eric Postpichil mentions in the comments, the C standard isn't bound to ASCII. (In fact, while it does occasionally give examples using ASCII, the standard seems to go out of its way to never assume that ASCII will be the character set used.).
fprintf outputs using the execution character set of your compiled program.